阅读说明：本技术 双层底纸带有关联数据信息的rfid血液标签 (RFID blood label with double-layer base paper tape and associated data information ) 是由 巩坤 牟晓辉 任慧颖 万杰 宋立涛 赵波 于 2021-09-14 设计创作，主要内容包括：本申请提供了双层底纸带有关联数据信息的RFID血液标签,包括：标签面层,标签面层上设置有血液信息标签层,标签面层的底部设置有压敏胶层,压敏胶层内嵌设有若干个inlay嵌体,inlay嵌体构成inlay层,压敏胶层局部嵌设有第一底纸层,压敏胶层底部覆设有第二底纸层,第一底纸层上设置有镜像信息标签层,标签面层上开设有若干模切刀线,模切刀线贯穿标签面层、压敏胶层、inlay层、第一底纸层以用于划分分标签,分标签根据是否包含第一底纸层分为双层分签和单层分签。本申请通过局部设置的第一底纸层,使RFID电子标签可以二次转移,降低了血液管理环节中的电子标签成本。(The application provides two-layer base paper tape has RFID blood label of associated data information, include: the label surface course, be provided with blood information label layer on the label surface course, the bottom of label surface course is provided with pressure sensitive adhesive layer, the embedded a plurality of inlay of being equipped with of pressure sensitive adhesive layer, the inlay of inlay constitutes the inlay layer, pressure sensitive adhesive layer local inlays and is equipped with first bottom paper layer, pressure sensitive adhesive layer covers in the bottom is equipped with the second bottom paper layer, be provided with mirror image information label layer on the first bottom paper layer, a plurality of cross cutting tool lines have been seted up on the label surface course, the cross cutting tool line runs through the label surface course, pressure sensitive adhesive layer, the inlay layer, first bottom paper layer is in order being used for dividing branch label, divide the label to divide into double-deck branch label and individual layer branch label according to whether containing first bottom paper layer. This application makes RFID electronic tags can secondary transfer through the first ground paper layer of local setting, has reduced the electronic tags cost in the blood management link.)

1. Double-layer backing paper tape has RFID blood label of associated data information, its characterized in that includes: the label comprises a label surface layer (1), a pressure-sensitive adhesive layer (9), an inlay layer (6), a first base paper layer (7) and a second base paper layer (4), wherein a blood information label layer (2) is arranged on the label surface layer (1), the pressure-sensitive adhesive layer (9) is arranged at the bottom of the label surface layer (1), a plurality of inlay bodies are embedded in the pressure-sensitive adhesive layer (9), the inlay bodies form the inlay layer (6), the first base paper layer (7) is locally embedded in the pressure-sensitive adhesive layer (9), the second base paper layer (4) is covered at the bottom of the pressure-sensitive adhesive layer (9), a mirror image information label layer (8) is arranged on the first base paper layer (7), a plurality of die cutting knife lines (3) are arranged on the label surface layer (1), and the die cutting knife lines (3) penetrate through the label surface layer (1), the pressure-sensitive adhesive layer (9), the inlay layer (6) and the first base paper layer (7) to be used for dividing labels, the sub-labels are divided into double-layer sub-labels and single-layer sub-labels according to whether the first base paper layer (7) is included or not.

2. The double-ply base paper tape RFID blood tag with associated data information of claim 1, wherein:

blood information label layer (2) includes a plurality of blood information code, mirror image information label layer (8) includes a plurality of mirror image information code, blood information code is located under including independent complete blood information code and mirror image information code's position to double-deck branch sign, the individual layer is divided to sign and is included independent complete blood information code.

3. The double-ply base paper tape RFID blood tag with associated data information of claim 2, wherein:

divide the label embedded be equipped with an inlay or not inlay and establish the inlay, if divide the label embedded inlay that is equipped with, the blood information code that corresponds branch label is located to the position of inlay under.

4. The double-ply base paper tape RFID blood tag with associated data information of claim 2, wherein:

the data contents of the blood information code and the mirror image information code of the double-layer label correspond to each other.

5. The double-ply base paper tape RFID blood tag with associated data information of claim 2, wherein:

a first silicone oil surface (7-1) is arranged at the top of the first base paper layer (7), a second silicone oil surface (4-1) is arranged at the top of the second base paper layer (4), the first silicone oil surface (7-1) and the second silicone oil surface (4-1) are respectively bonded with the pressure-sensitive adhesive layer (9), and the release force between the first base paper layer (7) and the first silicone oil surface (7-1) is greater than the release force between the second base paper layer (4) and the second silicone oil surface (4-1);

the mirror image information label layer (8) is arranged at the bottom of the first base paper layer (7).

6. A method for making an RFID blood tag having a double-layer base paper tape with associated data information according to any of claims 1-5, comprising the steps of:

s1: printing a blood information code on the label surface layer (1);

s2: printing mirror image information codes of the first base paper layer (7);

s3: the label surface layer (1) and the first base paper layer (7) are compounded and embedded into the inlay layer (6);

s4: the first base paper layer (7) is subjected to die cutting and waste discharge;

s5: compounding the second base paper layer (4);

s6: the front side of the label surface layer (1) is subjected to die cutting forming.

7. The method for manufacturing the RFID blood label with the double-layer base paper tape related to the data information according to claim 6, wherein the method comprises the following steps:

in the step S1, the label surface layer (1) is made of adhesive sticker, and positioning cursors (10) are printed on two sides of the label surface layer (1) while blood information codes are printed.

8. The method for manufacturing an RFID blood tag with associated data information using a double-layer base paper tape according to claim 7, wherein:

the specific method for printing the mirror image information code comprises the following steps:

s201, collecting data information of the blood information code of the label surface layer (1) through a data collector;

s202: and according to the data information of the blood information label layer (2), printing a mirror image information code at a corresponding position on the back surface of the first base paper layer (7) in a mirror image printing mode.

9. The method for making an RFID blood tag with associated data information using a double-layer base paper tape as claimed in claim 8, wherein:

in the step S4, according to the requirement of locally setting double-layer base paper, die cutting is performed on the first base paper layer (7) to discharge waste, the redundant part of the first base paper layer (7) is peeled off, and the mirror image information label layer (8) printed on the back surface of the first base paper layer (7) remains on the back surface of the first base paper layer (7);

in step S5, the label sheet (1) cut and discarded in step S4 is laminated on its back surface with a second base paper layer (4) having a double-sided adhesive tape.

10. The method for making an RFID blood tag with associated data information using a double-layer base paper tape as claimed in claim 9, wherein:

in the step S6, die cutting is performed according to the position mark of the positioning cursor (10), a die cutting knife line (3) is generated by die cutting on the label surface layer (1), the whole label surface layer (1) is divided into a plurality of sub labels, and the sub labels are provided with independent and complete blood information codes.

Technical Field

The application relates to the technical field of automatic identification, in particular to an RFID blood label with double-layer base paper tape related data information.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The full English name of the RFID is Radio Frequency Identification RFID, which is simply a non-contact automatic Identification technology, and the RFID automatically identifies a target object and acquires related data through a Radio Frequency signal, so that the whole Identification work does not need manual intervention, and can work in various severe environments. RFID technology can identify objects moving at high speeds and a single very specific object, and can identify multiple tags simultaneously. Because it adopts radio frequency, can see through the outside material and read data, can discern a plurality of objects simultaneously moreover, so, more convenient and fast, except these, still have a biggest characteristic to store the information volume very big. As early as the second war, RFID was used by the army to identify aircraft from home and allied forces. Later, this technology has been applied mainly to limited fields such as wildlife tracking, highway and parking tolling, and is therefore not known. However, the technology is now increasingly widely used in the fields of industrial automation, commercial automation, and transportation control management. With the progress of large scale integrated circuit technology and the continuous enlargement of production scale, the cost of radio frequency identification products will be reduced continuously, and the application thereof will be more and more extensive. It is mainly composed of electronic label with chip, writer-reader and communication system. The main working principle is as follows: after entering a magnetic field of electromagnetic waves emitted by the reader-writer, the electronic tag receives a wireless radio frequency signal, and sends data information stored in the chip by virtue of energy obtained by the induced current, and the reader-writer reads and decodes the information and sends the information to the central information system for related data processing.

At present, blood labels in the industry are mostly common self-adhesive labels, and the blood labels are divided into the following parts in terms of application: blood sampling sleeve labels and finished product labels. The two types of blood labels are single-layer silicone oil base paper self-adhesive labels, and the labels can only be adhered for one time in the management of links such as registration, inspection, preparation, storage, distribution and the like of blood. In the preparation process of the component blood, some blood bags are temporarily stored or prepared for use, the final component blood needs to be transferred to the blood bag fixedly connected, a label is also adhered to the transferred blood bag, particularly after an RFID electronic label is adopted, the label value is high, and the label cost can be increased by adopting the label only with a single-layer base paper.

Disclosure of Invention

According to the RFID blood label with the double-layer base paper tape and the blood management method, the RFID blood label with the associated data information of the double-layer base paper tape is provided for solving the problems, the RFID electronic label can be transferred for the second time through the base paper layer which is arranged locally, and the cost of the electronic label in the blood management link is reduced.

The application provides two-layer base paper tape has RFID blood label of associated data information, include: label surface course, pressure sensitive adhesive layer, inlay layer, first base paper layer, second base paper layer, be provided with blood information label layer on the label surface course, the bottom of label surface course is provided with pressure sensitive adhesive layer, the embedded a plurality of inlay of being equipped with of pressure sensitive adhesive layer, the inlay of inlay constitutes the inlay layer, pressure sensitive adhesive layer local inlays and is equipped with first base paper layer, and pressure sensitive adhesive layer bottom is covered and is equipped with second base paper layer, be provided with mirror image information label layer on the first base paper layer, a plurality of cross cutting tool lines have been seted up on the label surface course, the cross cutting tool line runs through label surface course, pressure sensitive adhesive layer, inlay layer, first base paper layer and divides the label in order to be used for dividing, divide the label whether contain first base paper layer and divide into double-deck branch label and individual layer branch label.

Preferably, blood information label layer includes a plurality of blood information code, mirror image information label layer includes a plurality of mirror image information code, the position that double-deck branch signed including independent complete blood information code and mirror image information code is located under the blood information code, the single-deck branch is signed including independent complete blood information code.

Preferably, divide the label embedded be equipped with an inlay or not inlay and establish the inlay, if divide the label embedded be equipped with the inlay of inlay, the position of inlay is located and is corresponded the blood information code of branch label under.

Preferably, the blood information code of the double-layer label corresponds to the data content of the mirror image information code.

Preferably, first base paper layer top is equipped with first silicone oil face, and second base paper layer top is equipped with second silicone oil face, first silicone oil face and second silicone oil face bond with pressure sensitive adhesive layer respectively, first base paper layer bottom is located to mirror image information label layer.

The invention also provides a manufacturing method of the RFID blood label with the double-layer base paper tape and the associated data information, which comprises the following steps:

s1: printing a blood information code on a label surface layer;

s2: printing mirror image information codes of the first base paper layer;

s3: the label surface layer and the first base paper layer are compounded and embedded into the inlay layer;

s4: die cutting and waste discharge of the first base paper layer;

s5: compounding the second base paper layer;

s6: and die cutting and forming the front side of the label surface layer.

Preferably, in step S1, the label surface layer is made of adhesive sticker, and positioning cursors are printed on two sides of the label surface layer while the blood information code is printed.

Preferably, the specific method for printing the mirror image information code is as follows:

s201, collecting data information of the blood information code of the label surface layer through a data collector;

s202: and printing mirror image information codes at corresponding positions on the back surface of the first base paper layer in a mirror image printing mode according to the data information of the blood information codes.

Preferably, in step S4, according to the requirement of locally setting a double-layer base paper, the first base paper layer is subjected to die cutting to discharge waste, excess portions of the first base paper layer are peeled off, and the mirror image information label layer printed on the back surface of the first base paper layer remains on the back surface of the first base paper layer;

in step S5, the label sheet after being cut and discarded in step S4 is laminated with a second base paper layer having a double-sided tape.

Preferably, in step S6, die cutting is performed according to the positioning cursor position mark, a die cutting line is generated by die cutting on the label surface layer, the whole label surface layer is divided into a plurality of sub labels, and each sub label has an independent and complete blood information code.

Compared with the prior art, the beneficial effect of this application is:

according to the blood collection method, a plurality of electronic tag inlay bodies can be added into a set of blood tags to be divided into a plurality of electronic tags and common tags, so that the tag requirements of each link of a blood collection process are met; meanwhile, double-layer silicone oil base paper is arranged below the sub-label needing to be transferred and labeled, and data information which is completely consistent with the label surface layer bar code information is arranged below the first layer of silicone oil paper, so that an operator can conveniently manage the final blood bag in a transfer mode when labeling, an electronic label can be checked and traced back according to the bar code information on the back of the first layer of silicone oil paper after transferring the label, time can be saved, errors can be reduced, and the use cost of the label is reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

Figure 1 is a front view of one embodiment of the present application,

figure 2 is a cross-sectional view of one embodiment of the present application,

figure 3 is a schematic representation of label facestock printing according to an embodiment of the present application,

figure 4 is a schematic view of a first base paper layer printing according to an embodiment of the present application,

figure 5 is a composite schematic of an inlay layer according to one embodiment of the present application,

figure 6 is a schematic view of a first basesheet layer die cut according to one embodiment of the present application,

figure 7 is a composite view of a second backing paper layer according to one embodiment of the present application,

fig. 8 is a schematic front side die cut view of a label facestock of an embodiment of the present application.

In the figure:

1. the label comprises a label surface layer, 2, a blood information label layer, 3, a die cutting knife line, 4, a second backing paper layer, 5, a point knife line, 6, an inlay layer, 7, a first backing paper layer, 8, a mirror image information label layer, 9, a pressure sensitive adhesive layer, 10, a positioning cursor, 4-1, a second silicone oil surface, 7-1 and a first silicone oil surface.

The specific implementation mode is as follows:

the present application will be further described with reference to the following drawings and examples.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

In the present disclosure, terms such as "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "side", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only relational terms determined for convenience in describing structural relationships of the parts or elements of the present disclosure, and do not refer to any parts or elements of the present disclosure, and are not to be construed as limiting the present disclosure.

As shown in fig. 1 to 2, the present application provides an RFID blood tag having a double-layer base paper tape with associated data information, comprising: label surface course 1, pressure sensitive adhesive layer 9, inlay layer 6, first ground paper layer 7, second ground paper layer 4, be provided with blood information label layer 2 on the label surface course 1, the bottom of label surface course 1 is provided with pressure sensitive adhesive layer 9, the embedded a plurality of inlay of being equipped with of pressure sensitive adhesive layer 9, the inlay of inlay constitutes inlay layer 6, pressure sensitive adhesive layer 9 local inlays and is equipped with first ground paper layer 7, and pressure sensitive adhesive layer 9 bottom is covered and is equipped with second ground paper layer 4, first ground paper layer 7 bottom is provided with mirror image information label layer 8, a plurality of cross cutting tool lines 3 have been seted up on the label surface course 1, cross cutting tool line 3 runs through label surface course 1, pressure sensitive adhesive layer 9, inlay layer 6, first ground paper layer 7 in order to be used for dividing the branch label, divide the label to divide into double-deck branch label and individual layer branch label according to whether contain first ground paper layer 7.

The application provides a two-layer bottom paper tape has RFID blood label of associated data information for the cover mark label, the cover mark indicates the primary and secondary label exactly, and a plurality of sub-labels of a mother mark supporting promptly, has multiple data incidence relation between each sub-label and the mother mark, and the cover mark in addition is the data incidence relation of more levels. Such labels are commonly used in tray labels such as wine, food, medicine, cosmetics, etc., and box labels, etc., and are intended for anti-counterfeit logistics and traceability management. As shown in fig. 1, a dotted knife line 5 is arranged between each set of adjacent label sets for the convenience of the user.

The inlay is RFID electronic tags's inlay, is constituteed by antenna part and chip, belongs to electronic tags's semi-manufactured goods, all need print LOGO through the surface course design usually, uses professional equipment to carry out compound encapsulation, makes finished product electronic tags.

Specifically, the blood information label layer 2 includes a plurality of blood information codes, and the mirror image information label layer 8 includes a plurality of mirror image information codes. The double-layer sub-label comprises a blood information code and a mirror image information code which are independent and complete, the position of the mirror image information code is arranged right below the blood information code, and the data contents of the blood information code and the mirror image information code of the double-layer sub-label correspond to each other; the single-layer tag comprises a single complete blood information code.

The mirror image information label layer 8 refers to that when the upper surface of the label is seen downwards, the mirror image information code is in the normal direction of reading, the mirror image information label layer 8 is printed and arranged at the bottom of the first base paper layer 7, and the mirror image information label layer is printed in a mirror image mode during printing, so that the mirror image information label layer 8 is described.

Divide the label embedded be equipped with an inlay or not inlay and establish the inlay, if divide the label embedded inlay that is equipped with, the blood information code that corresponds branch label is located to the position of inlay under.

The pressure-sensitive adhesive is characterized in that a first silicone oil surface 7-1 is arranged at the top of the first base paper layer 7, a second silicone oil surface 4-1 is arranged at the top of the second base paper layer 4, the first silicone oil surface 7-1 and the second silicone oil surface 4-1 are respectively bonded with the pressure-sensitive adhesive layer 9, and the release force between the first base paper layer 7 and the first silicone oil surface 7-1 is greater than the release force between the second base paper layer 4 and the second silicone oil surface 4-1.

The application provides a two-layer bottom paper tape has RFID blood label of associated data information is a set mark that contains a plurality of labels, according to the needs of composition blood preparation, the label of pasting on the middle preparation transfer blood bag finally need paste on the packing blood bag of composition blood. The function of locally arranging the first base paper layer 7 in the blood label sleeve is that the label with the local base paper 7 can be transferred for use for two times after being pasted for one time, so that the use flexibility of the label is improved, the time is saved, the error is reduced, and the cost is reduced. Blood information codes in the blood information label layer 2 on the label surface layer 1 are physically associated with mirror image information codes of the mirror image information label layer 8 on the back surface of the first base paper layer 7, after partial labels including the label surface layer 1 and the first silicone oil surface 7-1 of the first base paper layer 7 are removed from the blood bag, original blood information codes can be effectively traced according to the mirror image information codes left on the first base paper layer 7 on the surface of the blood bag, convenience brought to multiple tracing management is fully realized by the aid of a digital information association technology, errors are prevented, and working efficiency is improved.

In this embodiment, the release force of the second base paper 4 is controlled to be 3-5 g/25 mm, and the release force of the first base paper layer 7 is controlled to be 6-8 g/25 mm, so as to ensure that the first base paper layer 7 can be peeled off together with the label surface layer 1 and then adhered to the surface of the blood bag when the sub-label with the secondary transfer labeling is peeled off from the second base paper layer 4 and taken out.

The application also provides a manufacturing method of the RFID blood label with the double-layer base paper tape and the associated data information, which comprises the following specific steps:

s1: printing a blood information code on the label surface layer 1;

s2: printing the mirror image information code of the first base paper layer 7;

s3: the label surface layer 1 and the first base paper layer 7 are compounded and embedded into the inlay layer 6;

s4: die cutting and waste discharge are carried out on the first base paper layer 7;

s5: compounding the second base paper layer 4;

s6: and die cutting and forming the front surface of the label surface layer 1.

As shown in fig. 3, in step S1, the label surface layer 1 is made of adhesive sticker, and the positioning cursors 10 are printed on two sides of the label surface layer 1 while the blood information codes are printed by the digital printing device, where the blood information codes include 15 pieces of blood donation code information, specifically including blood type letter symbols, bar codes, verification codes, and the like.

In step S2, the specific method for printing the mirror image information code includes:

s201, collecting data information of the blood information code of the label surface layer 1 through a data collector;

s202: and according to the data information of the blood information label layer 2, printing a mirror image information code at a corresponding position on the back surface of the first base paper layer 7 in a mirror image printing mode.

As shown in fig. 4, the blood information label layer 2 on the surface of the label surface layer 1 is collected by a data collector and printed on the corresponding position on the back surface of the first base paper layer 7 in a mirror image manner, where, according to specific requirements, 1 or more mirror image information codes (15-bit blood donation code information in this embodiment) corresponding to the blood information codes in one-to-one correspondence at different positions can be printed in a mirror image printing manner to form a mirror image information label layer 8.

In the actual printing process, the blood information label layer 2 is collected through a data collector (in the embodiment, a bar code identification device is not used), the mirror image information label layer 8 is positioned and printed on the back surface of the first base paper layer 7 through data encryption operation or direct output and the like, and the technology physically ensures the one-to-one correspondence between the blood information codes on the double-layer labeled label surface layer 1 and the mirror image information codes on the back surface of the first base paper layer 7 or the data association relationship based on a certain algorithm.

In step S3, the lay layer 6 is attached to the professional compounding or attaching device, where the number of inlay pieces to be embedded may be selected as needed, the positions of the inlay pieces are respectively corresponding to the positions of the blood information codes of the label surface layers 1 of the same sub-label, as shown in fig. 5, the effect diagram is obtained by viewing the compound of the lay layer 6 from the back of the first base paper layer 7, and three inlay pieces are embedded into the compound electronic label with the cursor 10 as a reference. The compounding is a very common process in the production process of label products, and comprises adhesive sticker coating compounding and curing adhesive coating compounding; common compounding, contraposition compounding and other different technological requirements. The label composite processing technology mainly determines the composite processing technological process of the label according to the structural design of the label.

In step S4, according to the requirement of locally setting a double-layer base paper, the first base paper layer 7 is subjected to die cutting to discharge waste, the redundant part of the first base paper layer 7 is peeled off, and the mirror image information label layer 8 printed on the back surface of the first base paper layer 7 is retained on the back surface of the first base paper layer 7. As shown in fig. 6, the die cutting position is adjusted according to the cursor 10 printed on the label surface layer 1, the first base paper layer 7 is die cut, the redundant part is stripped off after waste discharge, the mirror image information label layer 8 remains on the back of the remaining first base paper layer 7, one of the three inlay inlays compositely embedded in the previous process is covered by the first base paper layer 7, and the other two inlay inlays are exposed outside the first base paper layer 7.

In step S5, the label face layer 1 after being cut and discarded in step S4 is laminated on the back surface thereof with a second base paper layer 4 having a double-sided adhesive tape.

And (3) die-cutting the back surface of the label surface layer 1 after waste discharge in the step (4), using a second base paper layer 4 with double-sided adhesive, stripping off the base paper layer with light release force on one side, and then compounding the base paper layer on the back surface of the label material to obtain the effect shown in figure 7, namely covering the base paper layer with the pressure sensitive adhesive layer 9 on the back surface of the surface layer. The underlying inlay layer 6, first base paper layer 7, mirror image information label layer 8, and cursor 10 printed on the label surface layer 1 are visible through the second base paper layer 4 when viewed in a light-transmitting manner.

In the step S6, performing die cutting according to the position mark of the positioning cursor 10, die cutting on the label surface layer 1 to generate a die cutting line 3, dividing the whole label surface layer 1 into a plurality of sub labels, wherein each sub label has an independent and complete blood information code; meanwhile, a point knife line 5 is formed between each set of adjacent label sets through die cutting, and then the positioning cursors 10 on two sides are cut off separately, so that the effect graph of the whole set of labels as shown in fig. 8 is obtained.

The above description is only a preferred embodiment of the present application and is not intended to limit 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.

Although the embodiments of the present application have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present application, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive effort by those skilled in the art.