CN112216200A - Calibration label and manufacturing method thereof - Google Patents

Abstract

The invention discloses a method for manufacturing a calibration label, which comprises the following steps: step S1, drawing the fixed information of the calibration label; step S2, typesetting the drawn fixed information, and printing by using dust-free paper; step S3, cutting the printed dust-free paper for the first time to manufacture label paper; step S4, handwritten fill-in writing information on the label paper; step S5, typesetting the label paper in a plastic packaging adhesive film; and step S6, performing plastic package and secondary cutting on the label paper after typesetting to manufacture the calibration label. The invention also discloses the calibration label manufactured by the method. The invention is simple and rapid, can be used along with the manufacture, meets the diversified requirements of users, can greatly reduce the updating cost of the calibration label, has a plastic package structure, can not generate curling deformation and falling, can effectively avoid the condition that the label is replaced to generate residual glue and residual paper so as to scratch appliances, and can avoid the condition that the content of the label is considered to be modified.

Description

Calibration label and manufacturing method thereof

Technical Field

The invention relates to the field of semiconductor integrated circuits, in particular to a self-made calibration label and a manufacturing method thereof, which are suitable for various metering devices and the like.

Background

During the manufacturing process of semiconductor integrated circuits, a variety of metrology tools are required and are often used repeatedly in many process steps. Manufacturers in the semiconductor integrated circuit industry generally require that all metrology tools (including test equipment, gauges, etc.) must be labeled with corresponding calibration labels that show their latest status, so as to reflect the quality status of the metrology tools and manage the quality of the metrology tools in real time.

In the integrated circuit manufacturing industry, disposable adhesive calibration labels are commonly used, and are typically purchased as disposable adhesive paper labels, as shown in fig. 1. Such a calibration label generally includes three parts as shown in fig. 2, namely, a printed label paper 1, an adhesive layer 2, and a label base paper 3, wherein the adhesive layer 2 is located on the back side of the printed label paper 1, and information related to quality control, such as equipment calibration status, calibration date, validity time, control department, etc., is printed on the printed label paper 1. The label backing paper 3 can be stripped, and the printed label paper 1 is adhered to the corresponding metering device through the adhesive layer 2. The printed label sheet 1 is used to indicate the status of the meter including, but not limited to, calibration pass, pause use, extended expiration date, seal-out, etc. In general, information such as the calibration date and the expiration date on the printed label paper 1 is written by a dust-free pen.

At present, in the use process of a purchased disposable adhesive paper calibration label, the label often has the events of curling/deforming, falling off and the like. Particularly, under special conditions such as high-temperature contact, the service life of the adhesive in the paper label is shortened, and abnormal conditions such as label curling/deformation and falling are easy to occur. The falling off of the label can not only lead the user to be unable to determine the state of the measuring instrument, but also seriously affect the quality of the product if the user uses the unqualified measuring instrument for detection, and even lead the product qualification rate to be reduced.

In addition, the problem that the residual adhesive/residual paper on the surface of the measuring instrument is difficult to remove often occurs in the updating process of the disposable adhesive paper label, and the residual adhesive/residual paper not only reduces the cleanliness of the production area, but also can generate particles to influence the quality of products. Meanwhile, scraping off the residual adhesive/paper on the measuring device may also cause the risk of scratching the measuring device.

The pasting of the calibration label is real-time, the existing calibration label is customized from an external manufacturer, the purchase period is long (about two months), and the calibration label can be objectively pasted in time to generate adverse effects. If a large number of labels are purchased at one time, the adhesive property on the back of the labels is possibly degraded with time, and finally, the possibility that the labels are deformed and fall off is increased. Considering that the metering devices (especially the measuring equipment) need to be calibrated in each season, the number of the needed calibration labels is large, the time for pasting the labels is not uniform, and the requirement of pasting instantaneity and enough viscosity of the calibration labels by outsourcing calibration labels is difficult to meet simultaneously.

Furthermore, as the integrated circuit manufacturing process becomes more and more complex, the accuracy requirement on the measuring instruments becomes higher and higher, and the types, the number and the times of the used measuring instruments become more and more. In this case, the number of calibration tags required is also increasing. The cost of the current customized calibration label is high, for example, each paper calibration label shown in fig. 1 is sold at 2.07 yuan at present, the total number of the calibration labels used in one year is 800, and the cost of putting the paper calibration label in each year is about 1600 yuan.

In addition, the information of the current calibration label is written by a dustless pen by a calibrator, and the possibility of being modified by people exists.

Therefore, how to solve the problems that the existing outsourced adhesive paper calibration label is easy to deform and fall off, the residual adhesive is difficult to remove, the manufacturing period is long, the cost is high, and the information is possibly modified becomes an important subject in quality control and operation management of integrated circuit manufacturing enterprises.

Disclosure of Invention

The invention aims to provide a calibration label and a manufacturing method thereof, which can solve the problems that the existing outsourced adhesive paper calibration label is easy to deform and fall off, the residual adhesive is difficult to remove, the manufacturing period is long, the cost is high, and the information can be modified.

In order to solve the above problems, the method for manufacturing the calibration label provided by the present invention comprises the following steps:

step S1, drawing the fixed information of the calibration label;

step S2, typesetting the drawn fixed information, and printing by using dust-free paper;

step S3, cutting the printed dust-free paper for the first time to manufacture label paper;

step S4, handwritten fill-in writing information on the label paper;

step S5, typesetting the label paper in a plastic packaging adhesive film;

and step S6, performing plastic package and secondary cutting on the label paper after typesetting to manufacture the calibration label.

Further, in step S1, the kind, color and layout of the fixed information of the calibration label depend on the requirement of the user.

Further, in step S2, color printing is performed using the dust-free paper, and the state of the measuring instrument to which the calibration label is attached is distinguished by different colors.

Further, in steps S3 and S6, cutting is performed according to the user' S requirement and the pasting area of the calibration label on the measuring instrument.

Further, in step S4, corresponding filling information is added on the label paper by using a dust-free pen.

Further, in step S5, typesetting the label paper on the bottom plastic-packaged adhesive film, and then covering the label paper with the top plastic-packaged adhesive film.

Further, after step S6, a dust-free double-sided adhesive tape is mounted on the calibration label, and the calibration label is directly attached to the corresponding measuring instrument through the dust-free double-sided adhesive tape.

Further, after step S6, the calibration label is placed in a transparent bag, the transparent bag having an adhesive layer, and the calibration label is indirectly adhered to the corresponding measuring instrument through the adhesive layer of the transparent bag.

Further, after step S6, the calibration label is placed in a fixed card socket, where the fixed card socket is completely transparent or has a window for exposing information of the calibration label, and the fixed card socket has an adhesive layer, and the calibration label is indirectly adhered to the corresponding metering device through the adhesive layer of the fixed card socket.

Meanwhile, the calibration label provided by the invention comprises label paper and a plastic packaging adhesive film, wherein the plastic packaging adhesive film is used for plastically packaging the label paper in the plastic packaging adhesive film, the label paper is provided with fixed information and filling information, the fixed information is drawn by a user, and the filling information is added by the user through handwriting before plastic packaging.

Compared with the existing purchased and customized disposable adhesive paper calibration label, the invention has the beneficial technical effects that:

firstly, the manufacturing method of the calibration label is simple and rapid, the information content and the layout form of the calibration label can be designed by a label user (a calibrator of a metering device) according to the self requirement or the calibration requirement of the metering device, the individualized requirement is better met, and the label user can use the label at any time, so that the waiting period of outsourcing customization is avoided;

secondly, the calibration label manufactured by the method is of a plastic package structure, cannot be curled and deformed, and cannot easily fall off from a measuring instrument in a direct pasting mode (by using a plastic package adhesive film and a dust-free double-sided adhesive tape) or an indirect pasting mode (by using a transparent bag or a card seat with an adhesive layer);

thirdly, the calibration label with the plastic package structure manufactured by the method can effectively avoid the situation that the metering device is scratched due to the removal of residual glue/residual paper because the residual glue or the residual paper with a film which is difficult to remove is left on the surface of the metering device in the replacement process of the calibration label;

fourthly, the calibration label of the plastic package structure manufactured by the method is firstly manually filled with information contents to be filled in by a label user and then is subjected to plastic package cutting and pasting, so that the filling contents on the calibration label after the plastic package can not be manually modified, and the condition that the filling contents are fuzzy and the state of a measuring instrument cannot be judged in the using process can not occur;

fifthly, the calibration label self-making method can greatly reduce the updating cost of the calibration label.

Drawings

FIG. 1 is a schematic view of a conventional commercially available disposable adhesive paper label;

FIG. 2 is a schematic diagram showing the composition of a conventional commercially available disposable adhesive paper label;

FIG. 3 is a schematic diagram of the components of the calibration label of the present invention;

FIG. 4 is a state diagram of the calibration label of the present invention in use in a direct stick configuration;

FIG. 5 is a schematic view of the calibration label of the present invention used in an indirect attachment via a transparent bag;

FIG. 6 is a state diagram of the calibration label of the present invention being used in an indirect attachment manner via a fixed holder;

FIG. 7 is a schematic diagram of a process for making a calibration label of the present invention;

fig. 8 is a flowchart of a method of manufacturing the calibration label of the present invention.

The reference numerals are explained below:

1 is printing label paper; 2 is an adhesive layer; 3 is label base paper; 4 is a transparent bag; 5 is label paper; 6 is plastic packaging adhesive film; 7 is a dust-free double-sided adhesive tape; and 8 is a fixed clamping seat.

Detailed Description

Other advantages and effects of the present invention will become readily apparent to those skilled in the art from the following detailed description, wherein it is shown in the accompanying drawings, wherein the specific embodiments are by way of illustration. In the following description, specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced or applied in different embodiments, and the details may be based on different viewpoints and applications, and may be widely spread and replaced by those skilled in the art without departing from the spirit of the present invention.

In the description of the present application, it is to be noted that the terms "having," "forming," "mounting," "connecting," and "connecting" are to be construed broadly unless otherwise specifically stated or limited. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

In the description of the present application, it is to be noted that the terms "upper", "lower", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The manufacturing method of the calibration label of the embodiment of the invention, as shown in fig. 8, includes the following steps:

step S1, drawing the fixed information of the calibration label;

the fixed information includes, but is not limited to, a device calibration status, a calibration date, an effective time, a management and control department, and the like.

Meanwhile, the kind, color and layout of the fixed information of the calibration label depend on the user's needs.

And step S2, typesetting the drawn fixed information, and printing by using the dust-free paper.

Specifically, black-and-white printing or color printing can be performed by using the dust-free paper, so as to distinguish states (such as qualified calibration, suspended use, prolonged validity period, sealing and the like) of the measuring instrument on which the calibration label is pasted by different colors.

Wherein, typesetting needs to ensure that enough space exists between the fixed information on the label, which is convenient for subsequent cutting.

And step S3, cutting the printed dust-free paper for the first time to manufacture label paper.

Wherein the cutting can be performed according to the requirements of the user and the area of application of the calibration label on the measuring device.

Specifically, the cutting machine is adopted to cut the printed dust-free paper, tools such as scissors and a paper cutter are avoided being adopted for cutting, and therefore consistency is guaranteed.

In step S4, writing information is handwritten on the tabbed paper.

Wherein, corresponding filling information, such as calibration date, valid period, etc., is manually added on the label paper by using a dust-free pen.

And step S5, typesetting the label paper in a plastic packaging adhesive film.

Specifically, the label paper is firstly typeset on a bottom plastic packaging adhesive film, and then the label paper is covered by a top plastic packaging adhesive film.

It should be noted that typesetting the label paper also ensures that enough space exists between the label paper and between the boundary of the label paper and the plastic package adhesive film, which is convenient for subsequent cutting and ensures that each piece of label paper is completely and independently plastic packaged after cutting.

And step S6, performing plastic package and secondary cutting on the label paper after typesetting to manufacture the calibration label.

Wherein the cutting can be performed according to the requirements of the user and the area of application of the calibration label on the measuring device.

The manufacturing method of the calibration label comprises the processes of label drawing, typesetting, dust-free paper printing, cutting, typesetting again, plastic packaging and cutting again, as shown in fig. 7, the whole process is simple and quick, the information content and the layout form of the calibration label can be designed by a label user (a calibrator of a measuring instrument) according to the self-demand or the calibration requirement of the measuring instrument, the personalized demand is better met, and the label user can use the label along with the production, so that the waiting period of outsourcing customization is avoided.

In addition, the information content to be filled in the calibration label is manually filled in the label by a label user and then the label is sealed, cut and pasted, so that the filling content (calibration date, expiry date and the like) on the calibration label after being sealed by the label can not be manually modified, the condition that the state of a metering device cannot be judged due to the fact that the filling content is fuzzy in the using process can not occur, and meanwhile, the introduction of particles in a production area can be reduced.

The calibration label provided by the embodiment of the invention comprises label paper 5 and a plastic packaging adhesive film 6, wherein the plastic packaging adhesive film 6 is used for plastic packaging the label paper 5 in the label paper, the label paper 5 is provided with fixed information and filling information, the fixed information is drawn by a user, and the filling information is added by the user through handwriting before plastic packaging.

The calibration label manufactured by the embodiment of the invention can be arranged on the corresponding metering device in a direct pasting mode or an indirect pasting mode. The specific mode is as follows:

mode 1, installing a dust-free double-sided adhesive tape 7 on the calibration label, and directly adhering the calibration label to a corresponding metering device through the dust-free double-sided adhesive tape 7 as shown in fig. 4;

mode 2, placing the calibration label in a transparent bag 4, as shown in fig. 5, where the transparent bag 4 has an adhesive layer, and indirectly adhering the calibration label to a corresponding metering device through the adhesive layer of the transparent bag 4;

mode 3, the calibration label is placed in the fixed card holder 8, the fixed card holder 8 has a socket 82 for inserting the calibration label, and the fixed card holder is completely transparent or has a window 81 for exposing information of the calibration label, as shown in fig. 6, the fixed card holder 8 has an adhesive layer, and the calibration label is indirectly adhered to the corresponding metering device through the adhesive layer of the fixed card holder 8.

Among them, in mode 2 and mode 3, the calibration label is changed in-process, and transparent bag 4 or fixed cassette 8 need not follow the change of calibration label and change, is favorable to so that the user convenient and fast ground to change the calibration label.

The calibration label of the embodiment of the invention is of a plastic package structure, can not generate curling deformation, and can not easily fall off from a measuring instrument in a direct pasting mode (by using a plastic package adhesive film and a dust-free double-sided adhesive tape) or an indirect pasting mode (by using a transparent bag or a card seat with an adhesive layer).

Moreover, the calibration label can effectively avoid the situation that the residual glue or the residual paper of the torn film which is difficult to remove is left on the surface of the measuring instrument in the replacement process of the calibration label, so that the measuring instrument is scratched when the residual glue/the residual paper is removed.

The calibration label self-making method can greatly reduce the updating cost of the calibration label, and particularly, the cost of one piece of dust-free paper is about 0.4 yuan, the cost of one piece of plastic packaging adhesive film is about 0.2 yuan, the whole piece of dust-free paper can be printed with about 18 pieces of label paper, namely, one piece of label paper only needs 0.033 yuan, while the cost of the existing one-time calibration label is about 2.07 yuan.

The present invention has been described in detail with reference to the specific embodiments, which are merely preferred embodiments of the present invention, and the present invention is not limited to the above embodiments. Equivalent alterations and modifications made by those skilled in the art without departing from the principle of the invention should be considered to be within the technical scope of the invention.

Claims (10)

1. A method for manufacturing a calibration label is characterized by comprising the following steps:

step S1, drawing the fixed information of the calibration label;

step S2, typesetting the drawn fixed information, and printing by using dust-free paper;

step S3, cutting the printed dust-free paper for the first time to manufacture label paper;

step S4, handwritten fill-in writing information on the label paper;

step S5, typesetting the label paper in a plastic packaging adhesive film;

and step S6, performing plastic package and secondary cutting on the label paper after typesetting to manufacture the calibration label.

2. The method for manufacturing the calibration label according to claim 1, wherein in step S1, the type, color and layout of the fixed information of the calibration label depend on the user' S requirement.

3. The method of manufacturing a calibration label according to claim 1, wherein in step S2, the dust-free paper is used to perform color printing, and the state of the measuring instrument to which the calibration label is attached is distinguished by different colors.

4. The method of claim 1, wherein the calibration label is cut according to the user' S requirement and the pasting area of the calibration label on the measuring device in steps S3 and S6.

5. The method for manufacturing calibration label of claim 1, wherein in step S4, a dust-free pen is used to add corresponding filling information on the label paper.

6. The method for manufacturing the calibration label of claim 1, wherein in step S5, the label paper is typeset on a bottom plastic-packaged adhesive film, and then the label paper is covered with a top plastic-packaged adhesive film.

7. The method of claim 1, wherein after step S6, a dust-free double-sided adhesive tape is attached to the calibration label, and the calibration label is directly attached to the corresponding measuring instrument by the dust-free double-sided adhesive tape.

8. The method of making a calibration label of claim 1, wherein after step S6, the calibration label is placed in a transparent bag having an adhesive layer, and the calibration label is indirectly adhered to the corresponding metering device via the adhesive layer of the transparent bag.

9. The method for manufacturing the calibration label according to claim 1, wherein after step S6, the calibration label is placed in a fixing holder, the fixing holder is completely transparent or has a window for exposing the information of the calibration label, the fixing holder has an adhesive layer, and the calibration label is indirectly adhered to the corresponding metering device through the adhesive layer of the fixing holder.

10. The calibration label is characterized by comprising label paper and a plastic packaging adhesive film, wherein the plastic packaging adhesive film is used for plastic packaging the label paper in the plastic packaging adhesive film, the label paper is provided with fixed information and filling information, the fixed information is drawn by a user, and the filling information is added by the user through handwriting before plastic packaging.

Images