CN114889984A - Packing belt, production method and system of packing belt and product packing method - Google Patents

Abstract

The application relates to the technical field of packing belts, in particular to a packing belt, a production method and a production system of the packing belt and a product packing method. This application is direct to be provided with the two-dimensional code on the packing area body, rather than set up the two-dimensional code on the off-the-shelf outer packing is taken in the packing, the defect that tearing the outer packing among the prior art just can not traceing back to the packing area has been overcome to a certain extent, and, when considering in-service use, cut into one section with the packing area usually and use one section, so the interval is provided with a plurality of two-dimensional codes on the packing area, it all includes at least one two-dimensional code to guarantee to be cut on each section packing area of use in the at utmost, in order to ensure that the user can read the information of relevance on the two-dimensional code through the two-dimensional code on the scanning packing area.

Description

Packing belt, production method and system of packing belt and product packing method

Technical Field

The application relates to the technical field of packing belts, in particular to a packing belt, a production method and a production system of the packing belt and a product packing method.

Background

The two-dimensional code has the characteristics of capability of recording complex data, large information amount, high confidentiality, strong anti-counterfeiting performance, lower cost and the like, and is particularly suitable for the aspects of receipt, stock, inventory, tracking, confidentiality and the like of commodities. The two-dimension code greatly improves the speed of acquiring and processing commodity transaction data, has the advantages of high speed, convenience, intellectualization and the like, is widely favored by markets and people, and is applied to various business activities of various industries.

The two-dimensional code is less in the application in pet packing area production field, the logistics information, the storage information and the like of pet packing area finished products, namely, lap packing area, are recorded through the two-dimensional code in the existing related application, the technical defect that the packing area cannot be subjected to traceability management after the two-dimensional code on the packing area finished products falls exists, particularly, when the packing area is cut for use, the packing area cannot be subjected to traceability management on packing area sections, in the existing related technology, the packing area only has a universal packing and bundling effect, and the product utilization rate is low. For this, further improvements are awaited.

Disclosure of Invention

In order to overcome the technical defect that the source tracing of the packing belt is inconvenient in the related technology to a certain extent, the application provides the packing belt, the production method and system of the packing belt and the product packing method.

In a first aspect, the packing belt provided by the application adopts the following technical scheme:

the utility model provides a packing belt, includes the packing belt body, be provided with a plurality of two-dimensional code on the packing belt body, a plurality of the two-dimensional code along the extending direction interval predetermined distance of packing belt body set up in the outside of packing belt body.

Through adopting above-mentioned technical scheme, directly be provided with the two-dimensional code on the packing area body, rather than setting up the two-dimensional code on the off-the-shelf outsourcing of packing area, the technical defect that tearing the extranal packing and just can not traceing back to the packing area among the prior art has been overcome to a certain extent, when the user sweeps the two-dimensional code on the packing area body through handheld sign indicating number equipment of sweeping or possessing the cell-phone etc. of sweeping the sign indicating number function, can read relevant information on this two-dimensional code, for example the production information and the storage information etc. of packing area. In addition, in consideration of the fact that the packaging belt is usually cut into a section for use in practical use, a plurality of two-dimensional codes are arranged on the packaging belt body at intervals of a preset distance, and each section of the packaging belt which is cut for use is guaranteed to contain at least one two-dimensional code to the maximum extent, so that a user can read related information on the two-dimensional code by scanning the two-dimensional code on the packaging belt.

Specifically, the distance between two adjacent two-dimensional codes on the packing belt body can be set according to the size of the bound object, for example, if the bound object is small in size, the distance between two adjacent two-dimensional codes is set to be small, if the bound object is large in size, the distance between two adjacent two-dimensional codes can be set to be large, and as long as the packing belt can be cut for use, each section of the packing belt can comprise at least one two-dimensional code. Furthermore, for the bound object, the two-dimensional code on the packing belt can be used as the label, and only the related information on the two-dimensional code needs to be set as the related information of the bound object, so that the action of the packing belt is not limited to packing and binding, and meanwhile, the source tracing management of the bound object can be realized without arranging another label on the bound object, so that the resource utilization rate is greatly improved, and the production cost is favorably reduced.

Optionally, a plurality of two-dimensional codes are arranged on two opposite outer sides of the packing belt body at intervals of a preset distance along the extending direction of the packing belt body.

Through adopting above-mentioned technical scheme, the both sides that make the packing area body all are provided with the two-dimensional code, and when the packing area was tied up on being tied up the thing, no matter which side of packing area is hugged closely on being tied up the thing, can both conveniently scan the two-dimensional code and read relevant information, are favorable to guaranteeing the simple operation nature.

Optionally, the two-dimensional code on one of the outer sides of the packing belt body and the two-dimensional code on the other outer side of the packing belt body are arranged in a staggered manner.

Through adopting above-mentioned technical scheme, make the position that is located the two-dimensional code in two outsides of packing area body stagger each other, be equivalent to the density that has improved the two-dimensional code on the packing area on the whole to when packing area is cut into a segment when using, all including at least one two-dimensional code on can guaranteeing each segment packing area to the at utmost, be favorable to guaranteeing to use the reliability.

In a second aspect, the packing belt production method provided by the application adopts the following technical scheme:

a packing belt production method is used for arranging a two-dimensional code on a packing belt which is stretched and formed by a stretching mechanism, and comprises the following steps:

s100: stretching and forming to obtain a packing belt;

s200: rolling the packaging belt obtained by stretch forming;

wherein, between the step S100 and the step S200, the method further comprises the steps of:

s110: and a plurality of two-dimensional codes are arranged on the outer side of the packaging belt which is formed by stretching but not rolled at intervals of a preset distance along the extension direction of the packaging belt.

Through adopting above-mentioned technical scheme, set up a plurality of two-dimensional codes on the packing area, overcome to a certain extent and torn the technical defect that the extranal packing just can not be traceed back to the packing area among the prior art, when the user sweeps the two-dimensional code on the packing area through handheld sign indicating number equipment of sweeping or possess the cell-phone etc. of sweeping the sign indicating number function, can read relevant information on this two-dimensional code, for example the production information and the storage information etc. in packing area. In addition, in consideration of the fact that the packing belt is usually cut into a section for use in practical use, a plurality of two-dimensional codes are arranged on the packing belt at intervals of a preset distance, so that each section of the packing belt which is cut for use is guaranteed to contain at least one two-dimensional code to the maximum extent, and a user can read the related information on the two-dimensional codes by scanning the two-dimensional codes on the packing belt.

Specifically, the distance between two adjacent two-dimensional codes on the packing belt can be set according to the size of an actual bound object, for example, if the bound object has a small size, the distance between two adjacent two-dimensional codes is set to be small, and if the bound object has a large size, the distance between two adjacent two-dimensional codes can be set to be large, so long as it can be ensured that when the packing belt is cut for use, each section of the packing belt comprises at least one two-dimensional code. Furthermore, for the bound object, the two-dimensional code on the packing belt can be used as the label, and only the related information on the two-dimensional code needs to be set as the related information of the bound object, so that the action of the packing belt is not limited to packing and binding, and meanwhile, the source tracing management of the bound object can be realized without arranging another label on the bound object, so that the resource utilization rate is greatly improved, and the production cost is favorably reduced.

Optionally, step S110 specifically includes: and a plurality of two-dimensional codes are respectively arranged on two opposite outer sides of the packaging belt which is formed by stretching but not rolled at a preset distance along the extension direction of the packaging belt.

By adopting the technical scheme, the two-dimension codes are arranged on the two sides of the packing belt, so that when the packing belt is bound on a bound object, no matter which side of the packing belt is tightly attached to the bound object, the two-dimension codes can be conveniently scanned to read related information, and convenience in operation is guaranteed.

Optionally, step S110 specifically includes: the method comprises the following steps that a plurality of two-dimensional codes are respectively arranged on two opposite outer sides of a packaging belt which is formed in a stretching mode but not rolled at intervals of a preset distance along the extension direction of the packaging belt, and the two-dimensional code on one outer side of the packaging belt and the two-dimensional code on the other outer side of the packaging belt are arranged in a staggered mode.

Through adopting above-mentioned technical scheme, make the position that is located the two-dimensional code in two outsides in packing area stagger each other, be equivalent to the density that has improved the two-dimensional code on the packing area on the whole to when packing area is cut into a segment when using, all including at least one two-dimensional code on can guaranteeing each segment packing area to the at utmost, be favorable to guaranteeing to use the reliability.

In a third aspect, the packing belt production system provided by the application adopts the following technical scheme:

the utility model provides a packing area production system, includes stretching mechanism and winding mechanism, stretching mechanism is used for tensile packing area that obtains, winding mechanism is used for right the packing area rolls, still includes two-dimensional code generation module, two-dimensional code generation module set up in stretching mechanism with between the winding mechanism, two-dimensional code generation module is used for being located stretching mechanism with between the winding mechanism the outside of packing area is followed the extending direction interval predetermined distance of packing area sets up a plurality of two-dimensional codes.

Through adopting above-mentioned technical scheme, at tensile mechanism, winding mechanism and two-dimensional code generate module's combined action down, set up a plurality of two-dimensional codes on the packing area, the technical defect that tearing the extranal packing just can not trace back to the packing area among the prior art has been overcome to a certain extent, when the user scans the two-dimensional code on the packing area through handheld sign indicating number equipment of sweeping or the cell-phone etc. that possess the function of sweeping the sign indicating number, can read the information of relevance on this two-dimensional code, for example, the production information and the storage information etc. of packing area. In addition, in consideration of the fact that the packing belt is usually cut into a section for use in practical use, a plurality of two-dimensional codes are arranged on the packing belt at intervals of a preset distance, so that each section of the packing belt which is cut for use is guaranteed to contain at least one two-dimensional code to the maximum extent, and a user can read the related information on the two-dimensional codes by scanning the two-dimensional codes on the packing belt.

Specifically, the distance between two adjacent two-dimensional codes on the packing belt can be set according to the size of an actual bound object, for example, if the bound object has a small size, the distance between two adjacent two-dimensional codes is set to be small, and if the bound object has a large size, the distance between two adjacent two-dimensional codes can be set to be large, so long as it can be ensured that when the packing belt is cut for use, each section of the packing belt comprises at least one two-dimensional code. Furthermore, for the bound object, the two-dimensional code on the packing belt can be used as the label, and only the related information on the two-dimensional code needs to be set as the related information of the bound object, so that the action of the packing belt is not limited to packing and binding, and meanwhile, the source tracing management of the bound object can be realized without arranging another label on the bound object, so that the resource utilization rate is greatly improved, and the production cost is favorably reduced.

Optionally, the two-dimensional code generating module includes a jet printing machine and a coding unit, the jet printing machine is electrically connected to the coding unit, the jet printing machine is disposed on one side of the packing belt stretched between the stretching mechanism and the winding mechanism, the coding unit is configured to generate a two-dimensional code, and the jet printing machine is configured to jet print one two-dimensional code at a predetermined position outside the packing belt at a certain distance along an extending direction of the packing belt.

Through adopting above-mentioned technical scheme, under the combined action of jet printing machine and coding unit, every interval apart a certain distance along the extending direction in packing area spouts a two-dimensional code to be printed in the preset position in the packing area outside, compares in pasting the technical means in the packing area outside with the two-dimensional code, and the mode of spouting the seal more is favorable to guaranteeing the bonding steadiness of two-dimensional code on packing area.

In a fourth aspect, the product packaging method provided by the application adopts the following technical scheme:

a product packing method is characterized in that products are bundled by the packing belt, the two-dimensional code is a dynamic two-dimensional code, and the product packing method comprises the following steps:

associating the product information to the two-dimensional code on the strapping band that bundles the product.

It can be understood that compared with the traditional static two-dimensional code, the dynamic two-dimensional code has the advantage that the content appearing during code scanning can be changed without changing the original two-dimensional code existing in a physical form, and only the original two-dimensional code generation software needs to be modified. Based on this, adopt above-mentioned technical scheme, carry out the management of tracing to being tied up the thing through the two-dimensional code on the packing area, make the effect in packing area no longer confine to the binding and wrap, improved the utilization ratio in packing area, simultaneously, the user that uses the packing area to pack its product and tie up need not set up in addition also can realize the management of tracing to the source to its product, has improved resource utilization greatly, is favorable to practicing thrift manufacturing cost to a certain extent.

Optionally, the two-dimensional code on the packing belt is associated with a unique number corresponding to the two-dimensional code, and the step of associating the product information to the two-dimensional code on the packing belt for binding the product specifically includes:

scanning the two-dimensional code on the packing belt to obtain the unique number corresponding to the two-dimensional code;

associating the product information with the unique number to generate product updating information;

and associating the product information to the two-dimensional code corresponding to the unique number according to the product updating information.

By adopting the technical scheme, the two-dimension codes are endowed with the unique serial numbers, so that each two-dimension code can be accurately positioned in the later period, the related information on the packaging belt for bundling the products is ensured to be the product information, and the reliability of traceability management is favorably ensured.

As can be seen from the above, the present application has the following beneficial technical effects: directly be provided with the two-dimensional code on the packing area body, rather than set up the two-dimensional code on the off-the-shelf outsourcing of packing area, overcome to a certain extent among the prior art tear the technical defect that the extranal packing just can not be traceed back to the packing area, when the user sweeps the two-dimensional code on the body is taken in the scanning of sign indicating number equipment such as the cell-phone that sign indicating number equipment perhaps possess and sweep the sign indicating number function through handheld sweeping, can read the information of relevance on this two-dimensional code, for example the production information and the storage information etc. of packing area. In addition, in consideration of the fact that the packaging belt is usually cut into a section for use in practical use, a plurality of two-dimensional codes are arranged on the packaging belt body at intervals of a preset distance, and each section of the packaging belt which is cut for use is guaranteed to contain at least one two-dimensional code to the maximum extent, so that a user can read related information on the two-dimensional code by scanning the two-dimensional code on the packaging belt.

Specifically, the distance between two adjacent two-dimensional codes on the packing belt body can be set according to the size of the actual bound object, for example, if the bound object is small in size, the distance between two adjacent two-dimensional codes is set to be small, if the bound object is large in size, the distance between two adjacent two-dimensional codes can be set to be large, and as long as the packing belt can be cut for use, each section of the packing belt can comprise at least one two-dimensional code. Furthermore, for the bound object, the two-dimensional code on the packing belt can be used as the label, and only the related information on the two-dimensional code needs to be set as the related information of the bound object, so that the action of the packing belt is not limited to packing and binding, and meanwhile, the source tracing management of the bound object can be realized without arranging another label on the bound object, so that the resource utilization rate is greatly improved, and the production cost is favorably reduced.

Drawings

Fig. 1 is a schematic flow chart of a method for producing a strapping band, disclosed in an embodiment of the present application.

Fig. 2 is a schematic structural view of a packing belt disclosed in an embodiment of the present application.

Fig. 3 is a schematic flowchart of a product packaging method disclosed in an embodiment of the present application.

Description of reference numerals: 1. a packing belt body; 2. and (5) two-dimensional codes.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

In a first aspect, an embodiment of the application discloses a packing belt production system, which comprises a stretching mechanism, a winding mechanism and a two-dimensional code generation module, wherein the stretching mechanism is used for stretching to obtain a packing belt, the winding mechanism is used for winding the packing belt, the two-dimensional code generation module is arranged between the stretching mechanism and the winding mechanism, and the two-dimensional code generation module is used for setting a two-dimensional code outside the packing belt.

Specifically, can understand, in packing area production process, obtain packing area through stretching mechanism stretch forming, roll up stretching mechanism stretch forming's packing area through winding mechanism, wherein, two-dimensional code generation module sets up between stretching mechanism and winding mechanism, specifically speaking, two-dimensional code generation mechanism sets up in the one side of the packing area of tensile between stretching mechanism and winding mechanism, the outside of packing area through two-dimensional code generation mechanism between stretching mechanism and winding mechanism sets up the two-dimensional code, set up the two-dimensional code on the packing area of stretch forming but not rolling through two-dimensional code generation module promptly.

The two-dimensional code generation module can comprise a jet printing machine and a coding unit, the jet printing machine is electrically connected with the coding unit, the jet printing machine is installed on one side of a packaging belt stretched between the stretching mechanism and the winding mechanism, the coding unit can be a computer end provided with two-dimensional code generation software, the two-dimensional code is generated through the coding unit, and then the two-dimensional code is jet printed at a preset position on the outer side of the packaging belt through the jet printing machine.

Specifically, each two-dimensional code can be enabled to correspond to an unique number, serial number information and packing belt information are associated on the two-dimensional code, the serial number information comprises the unique number corresponding to the two-dimensional code, the packing belt information comprises production information (specifically comprising production date, production line number, rolling machine number and the like) of a packing belt, order information, customer information and warehouse entry and exit information, therefore, after the coding unit generates the two-dimensional code based on the serial number information and the packing belt information, the two-dimensional code is jet-printed at a preset position outside the packing belt through a jet printing machine, it can be understood that when the jet printing machine is fixedly installed, the rolling speed of the packing belt is controlled under the cooperation of a stretching mechanism and a rolling mechanism, and therefore the jet printing machine can be enabled to set a two-dimensional code at a certain distance along the extending direction of the packing belt outside the packing belt. Certainly, the jet printing machine can also be movably arranged, when jet printing is carried out, the stretching mechanism and the winding mechanism temporarily stop working, and the jet printing machine moves to arrange a two-dimensional code at a certain distance along the extension direction of the packing belt on the outer side of the packing belt.

It can be understood that the two-dimensional codes can be arranged on the two outer sides of the packing belt, and the two-dimensional codes can be arranged on the two sides of the packing belt stretched between the stretching mechanism and the winding mechanism. Moreover, the two-dimensional code positioned on one outer side of the packing belt and the two-dimensional code positioned on the other outer side of the packing belt can be arranged in a staggered mode, and the installation position of the jet printer can be adjusted.

Specifically, the distance between two adjacent two-dimensional codes can be set according to the size of an actual bound object, and the purpose is to ensure that each section of the packing belt comprises at least one two-dimensional code when the packing belt is cut for use. For example, if the bundled object is small in volume, the distance between the adjacent two-dimensional codes is set small, and if the bundled object is large in volume, the distance between the adjacent two-dimensional codes may be set large.

Further, in some embodiments, the two-dimensional code is a dynamic two-dimensional code, and the system further includes an information updating module electrically connected to the two-dimensional code generating module, where the information updating module is configured to update information associated with the two-dimensional code. It can be understood that compared with the traditional static two-dimensional code, the dynamic two-dimensional code has the advantage that the content appearing during code scanning can be changed without changing the original two-dimensional code existing in a physical form, and only the original two-dimensional code generation software needs to be modified. Therefore, a manufacturer can update the information related to the two-dimension code on the packaging belt in real time, and the use flexibility of the two-dimension code is improved.

Further, in some embodiments, the system further includes a storage module, where the storage module is configured to store information associated with the two-dimensional code, and specifically, the storage module is electrically connected to the two-dimensional code generation module, and the storage module stores number information of the two-dimensional code, where the number information includes a unique number corresponding to the two-dimensional code, and packing belt information associated with the two-dimensional code corresponding to the unique number, so as to form a database, so as to facilitate subsequent query and call. For example, a shared database may be generated based on the storage module to facilitate data sharing between the packing belt producer and the packing belt demander. For example, the life cycle of the strapping band may be monitored according to the information recorded in the database: assuming that the standard life cycle of the packing belt is usually 6 months, when the total time from the delivery of the packing belt to the storage of the packing belt in a packing belt demand party is detected to be close to 6 months according to the information recorded in the database, a reminding message is generated to remind the packing belt demand party of using the packing belt in the standard life cycle as soon as possible. Of course, the reminding information can be generated by the packing belt producer and sent to the packing belt demander, or can be generated by the packing belt demander itself and sent to the corresponding department inside.

In a second aspect, referring to fig. 1, an embodiment of the present application discloses a method for producing a strapping band, the method comprising the steps of:

s100, stretching and forming to obtain a packing belt;

s200, rolling the packaging belt after stretch forming;

wherein, the method further comprises the following steps between the step S100 and the step S200:

and S110, arranging a plurality of two-dimensional codes on the outer side of the packaging belt which is subjected to stretch forming but not rolled at intervals of a preset distance along the extension direction of the packaging belt.

Further, in some embodiments, the step S110 specifically includes: and S111, respectively arranging a plurality of two-dimensional codes on two opposite outer sides of the packaging belt which is subjected to stretch forming but not rolled at a preset distance along the extension direction of the packaging belt.

Further, in some embodiments, the step S110 specifically includes: and S112, respectively arranging a plurality of two-dimensional codes on two opposite outer sides of the packaging belt which is subjected to stretch forming but not rolled at intervals of a preset distance along the extension direction of the packaging belt, and enabling the two-dimensional code on one outer side of the packaging belt to be staggered with the two-dimensional code on the other outer side of the packaging belt.

In particular, the method is further described below in connection with the above-mentioned one strapping band production system:

it can be understood, in packing area production process, obtain packing area through stretching mechanism stretch forming, roll the packing area of stretching mechanism stretch forming through winding mechanism, wherein, two-dimensional code generation module sets up between stretching mechanism and winding mechanism, particularly, two-dimensional code generation mechanism sets up in the one side of the packing area of tensile between stretching mechanism and winding mechanism, the outside in the packing area of stretching between stretching mechanism and winding mechanism sets up the two-dimensional code through two-dimensional code generation mechanism, set up the two-dimensional code on the packing area of stretch forming but not rolling yet promptly through two-dimensional code generation module.

The two-dimensional code generation module can comprise a jet printing machine and a coding unit, the jet printing machine is electrically connected with the coding unit, the jet printing machine is installed on one side of a packaging belt stretched between the stretching mechanism and the winding mechanism, the coding unit can be a computer end provided with two-dimensional code generation software, the two-dimensional code is generated through the coding unit, and then the two-dimensional code is jet printed at a preset position on the outer side of the packaging belt through the jet printing machine.

Specifically, each two-dimensional code can be enabled to correspond to an unique number, serial number information and packing belt information are associated on the two-dimensional code, the serial number information comprises the unique number corresponding to the two-dimensional code, the packing belt information comprises production information (specifically comprising production date, production line number, rolling machine number and the like) of a packing belt, order information, customer information and warehouse entry and exit information, therefore, after the coding unit generates the two-dimensional code based on the serial number information and the packing belt information, the two-dimensional code is jet-printed at a preset position outside the packing belt through a jet printing machine, it can be understood that when the jet printing machine is fixedly installed, the rolling speed of the packing belt is controlled under the cooperation of a stretching mechanism and a rolling mechanism, and therefore the jet printing machine can be enabled to set a two-dimensional code at a certain distance along the extending direction of the packing belt outside the packing belt. Certainly, the jet printing machine can also be movably arranged, when jet printing is carried out, the stretching mechanism and the winding mechanism temporarily stop working, and the jet printing machine moves to arrange a two-dimensional code at a certain distance along the extension direction of the packing belt on the outer side of the packing belt.

It can be understood that the two-dimensional codes can be arranged on the two outer sides of the packing belt, and the two-dimensional codes can be arranged on the two sides of the packing belt stretched between the stretching mechanism and the winding mechanism. Moreover, the two-dimensional code positioned on one outer side of the packing belt and the two-dimensional code positioned on the other outer side of the packing belt can be arranged in a staggered mode, and the installation position of the jet printer can be adjusted.

Specifically, the distance between two adjacent two-dimensional codes can be set according to the size of an object to be bound, and the purpose is to ensure that each section of packing belt comprises at least one two-dimensional code when the packing belt is cut for use. For example, if the bundled object is small in volume, the distance between the adjacent two-dimensional codes is set small, and if the bundled object is large in volume, the distance between the adjacent two-dimensional codes may be set large.

In a third aspect, referring to fig. 2, the embodiment of the application discloses a packing belt with two-dimensional codes, which comprises a packing belt body 1, wherein the packing belt body 1 is provided with the two-dimensional codes 2, the two-dimensional codes 2 are provided in a plurality, and the two-dimensional codes 2 are arranged outside the packing belt body 1 at intervals of a preset distance along the extension direction of the packing belt body 1. Further, in some embodiments, a plurality of two-dimensional codes 2 are disposed on two opposite outer sides of the strapping tape body 1 at predetermined intervals along the extending direction of the strapping tape body 1. So for the both sides in packing area all have two-dimensional code 2, conveniently scan two-dimensional code 2 on the packing area, are favorable to improving the simple operation nature.

In some embodiments, the two-dimensional codes 2 on two opposite outer sides of the packing belt body 1 can be located at staggered positions, that is, the two-dimensional codes on the two outer sides of the packing belt are staggered from each other, which is equivalent to that the density of the two-dimensional codes on the packing belt is integrally improved, so that when the packing belt is cut into small sections for use, each small section of the packing belt can be guaranteed to be provided with at least one two-dimensional code to the greatest extent.

Wherein, distance between two adjacent two-dimensional code 2 on the packing area body 1 can be set up according to the size of the thing of being tied up in reality, and the purpose guarantees as far as possible when the packing area is cut the use, and every section packing area all includes at least one two-dimensional code 2. For example, if the bundled object is small in volume, the distance between the adjacent two-dimensional codes 2 is set small, and if the bundled object is large in volume, the distance between the adjacent two-dimensional codes 2 may be set large.

In a fourth aspect, an embodiment of the present application discloses a product packaging method, where a product is bundled by using the packaging belt, and the two-dimensional code is a dynamic two-dimensional code, the product packaging method includes the following steps:

and S300, associating the product information to a two-dimensional code on a packing belt for bundling the product.

Specifically, it can be understood that, compared with the conventional static two-dimensional code, the dynamic two-dimensional code has the advantage that the content appearing during code scanning can be changed without changing the original two-dimensional code existing in a physical form, and only the original two-dimensional code generation software needs to be modified. The product information may be related information of a product bundled by using the packing belt, for example, a name of the product, a parameter of the product, storage information of the product, and the like, so that when the bundled product needs to be subjected to traceability management by using the two-dimensional code on the packing belt, only the information on the two-dimensional code needs to be updated to the product information on the two-dimensional code generation software for generating the two-dimensional code.

Further, in some embodiments, in order to ensure that the information on the corresponding two-dimensional codes can be updated to the information on the corresponding products, considering that the same batch of packing belts may be used for packing different products, each two-dimensional code on the packing belt is assigned with a unique number, which is equivalent to that each two-dimensional code has a unique ID, and the unique number is associated with the corresponding two-dimensional code, so that the step S300 specifically includes:

s310, scanning the two-dimensional code on the packing belt to obtain a unique number corresponding to the two-dimensional code;

and S320, associating the product information to the two-dimensional code corresponding to the unique number.

For example, after a manufacturer producing ceramics purchases a packing belt, the product is bundled by using the packing belt, and the product is expected to be subjected to traceability management by using a two-dimensional code on the packing belt, then the manufacturer producing ceramics can scan the two-dimensional code on the packing belt to obtain a unique number corresponding to the two-dimensional code, and then the information associated with the two-dimensional code corresponding to the unique number is updated to the information of the ceramic product on two-dimensional code generation software, so that the two-dimensional code on the packing belt is changed into a label of the ceramic product, and when a user scans the two-dimensional code again, the updated product information of the ceramic product can be read.

Further, in some embodiments, considering that the two-dimensional code on the packing belt is usually set by the packing belt producer, that is, only the packing belt producer has the authority to use the two-dimensional code generation software for generating the two-dimensional code on the packing belt, the step S320 specifically includes S321:

and associating the product information to be updated with the unique number to generate product updating information, sending the product updating information to a packing belt producer, and associating the product information to the two-dimensional code corresponding to the unique number by the packing belt producer according to the product updating information. Specifically, the product update information is sent to a packing belt producer who originally generates the two-dimensional code on the packing belt, and the packing belt producer changes information associated with the two-dimensional code with the corresponding unique number on two-dimensional code generation software used by the packing belt producer.

For example, after a manufacturer producing ceramics purchases a packing belt, the manufacturer using the packing belt bundles products, and wants to perform traceability management on the products using a two-dimensional code on the packing belt, the manufacturer producing ceramics can scan the two-dimensional code on the packing belt to obtain a unique number corresponding to the two-dimensional code, then associate product information to be updated with the unique number to generate product update information, and send the product update information to a packing belt producer, and the packing belt producer modifies the associated information on the two-dimensional code corresponding to the unique number into product information on two-dimensional code generation software used by the packing belt producer, so that the two-dimensional code on the packing belt is changed into a label of the ceramic product, and when the user scans the two-dimensional code again, the product information of the updated ceramic product can be read.

All in a, adopt above-mentioned technical scheme, carry out the management of tracing to being tied up the thing through the two-dimensional code on the packing area, make the effect of packing area no longer confine to the binding and wrap, improved the use flexibility of packing area, simultaneously, the user that uses the packing area to pack its product and tie up need not set up in addition also can realize the management of tracing to the source to its product, has improved resource utilization greatly, is favorable to practicing thrift manufacturing cost to a certain extent.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

In addition, units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

Furthermore, the functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

In this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The packing belt comprises a packing belt body and is characterized in that a plurality of two-dimensional codes are arranged on the packing belt body, and the two-dimensional codes are arranged on the outer side of the packing belt body at intervals of a preset distance along the extending direction of the packing belt body.

2. The strapping band according to claim 1, wherein a plurality of the two-dimensional codes are arranged on two opposite outer sides of the strapping band body at a predetermined distance along the extension direction of the strapping band body.

3. The strapping band as claimed in claim 2, wherein the two-dimensional code on one of the outer sides of the strapping band body is offset from the two-dimensional code on the other outer side of the strapping band body.

4. A method of producing strapping bands, the method comprising the steps of:

s100: stretching and forming to obtain a packing belt;

s200: rolling the packaging belt obtained by stretch forming;

wherein, between the step S100 and the step S200, the method further comprises the steps of:

s110: and a plurality of two-dimensional codes are arranged on the outer side of the packaging belt which is formed by stretching but not rolled at intervals of a preset distance along the extension direction of the packaging belt.

5. The strapping band production method according to claim 4, wherein the step S110 specifically comprises: and a plurality of two-dimensional codes are respectively arranged on two opposite outer sides of the packaging belt which is formed by stretching but not rolled at a preset distance along the extension direction of the packaging belt.

6. The strapping band production method according to claim 5, wherein the step S110 specifically comprises: the method comprises the following steps that a plurality of two-dimensional codes are respectively arranged on two opposite outer sides of a packaging belt which is formed in a stretching mode but not rolled at intervals of a preset distance along the extension direction of the packaging belt, and the two-dimensional code on one outer side of the packaging belt and the two-dimensional code on the other outer side of the packaging belt are arranged in a staggered mode.

7. The utility model provides a packing area production system, includes stretching mechanism and winding mechanism, stretching mechanism is used for tensile packing area that obtains, winding mechanism is used for right the packing area rolls, its characterized in that still includes two-dimensional code generation module, two-dimensional code generation module set up in stretching mechanism with between the winding mechanism, two-dimensional code generation module is used for being located stretching mechanism with between the winding mechanism the outside of packing area sets up a plurality of two-dimensional codes.

8. The packing belt production system according to claim 7, wherein the two-dimensional code generation module comprises an inkjet printer and a coding unit, the inkjet printer is electrically connected with the coding unit, the inkjet printer is arranged on one side of the packing belt stretched between the stretching mechanism and the winding mechanism, the coding unit is used for generating two-dimensional codes, and the inkjet printer is used for inkjet printing one two-dimensional code at a certain distance along the extending direction of the packing belt at a preset position outside the packing belt.

9. A product packaging method, wherein the product is bundled by using the packaging belt according to any one of claims 1 to 3, and the two-dimensional code is a dynamic two-dimensional code, and the product packaging method comprises the following steps:

associating the product information to the two-dimensional code on the strapping band that bundles the product.

10. The product packing method according to claim 9, wherein the two-dimensional code on the packing belt is associated with a unique number corresponding to the two-dimensional code, and the step of associating the product information to the two-dimensional code on the packing belt for binding the product specifically comprises:

scanning the two-dimensional code on the packing belt to obtain the unique number corresponding to the two-dimensional code;

associating the product information with the unique number to generate product updating information;

and associating the product information to the two-dimensional code corresponding to the unique number according to the product updating information.

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