Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor
Reexamination Certificate
1999-07-30
2003-06-17
Crispino, Richard (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Methods
Surface bonding and/or assembly therefor
C156S239000, C156S249000, C106S031130
Reexamination Certificate
active
06579400
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a process for printing patterns or characters on a surface of a workpiece, and particularly to a process for printing patterns or characters on a surface using non-toxic ink.
BACKGROUND OF THE INVENTION
Conventionally, silk screen printing or transfer-printing is used to print patterns or characters on a surface of a workpiece, such as a metallic or plastic surface.
However, both of these methods have some disadvantages. Silk screen printing can only be practiced on a flat surface. Transfer printing has the disadvantages of having a small printing area, having a great printing distortion, particularly in the form of dots (bites) when used for large area printing. Also, the operation of transfer printing is complicated, and the equipment cost is high.
In addition to the aforementioned processes, patterns or characters can be put onto a surface using a self adhesive or heat transferable decal.
However, these two methods also have some disadvantages. A self adhesive decal may not meet the relevant international test standards, such as the EN71 standard in Europe, or the ASTM standard in the U.S. Heat transferable decals have a number of disadvantages, namely that the transfer temperature is unacceptably high, the decal is not easily handled and so locating it on a complicated surface before the transfer process is difficult, and that the available heat transferable decals have as carriers a film which must be peeled off after transfer, resulting in scarps (wrinkles) and defects caused by the print adhering to the film.
Therefore, there is still need in the art for an improved process for transferring images or patterns onto a surface.
SUMMARY OF THE INVENTION
The present invention is aimed at solving the above drawbacks present in the conventional processes. Accordingly, one object of the present invention is to provide a new process for printing patters or characters on a surface of a workpiece using non-toxic ink, comprising forming the patterns or characters to be printed on a transferring medium using non-toxic ink; separating the printed patterns or characters from the transferring medium with, e.g., water; placing the patterns or characters onto the surface of a workpiece; and fixing the patterns or characters to the surface of the workpiece.
The process according to the present invention can be used to print patterns or characters on a large area and/or on an irregular or even grooved surface. Additionally, its operation is simple, the equipment cost is low and flexibility is high.
The foregoing and other advantages and features of the invention, and the manner in which the same are accomplished, will become more readily apparent upon consideration of the following detailed description of the invention taken in conjunction with the accompanying examples, which illustrate preferred and exemplary embodiments.
DETAILED DESCRIPTION OF THE INVENTION
The object of the present invention is achieved by the following process: the patterns or characters to be printed using a known non-toxic ink are first formed on a transferring medium, which is generally flat, e.g. through spraying, painting, printing, brushing or typing.
The transferring medium is preferably water transferring paper. Any conventional water transferring paper known in the art can be used for purpose of this invention. The non-toxic ink comprises resin, solvent and additive components. Examples of suitable resins are nitrolacquer and polyester resin. Examples of suitable solvents are acetic ether, butyl acetate, N-butyl alcohol, isophorone, toluene and xylene. Examples of suitable additives are conventional pigments and plasticizers.
It is preferred that the non-toxic ink has a composition of about from about 10 to about 20 percent, preferably about 14 to about 18 percent, more preferably about 15 to about 17 percent by weight resin, from about 42 to about 65 percent preferably from about 47 to about 60 percent, more preferably about 50 to about 56 percent by weight solvent, and from about 24 percent to about 40 percent, preferably 27 percent to about 37 percent by weight of additives.
Preferably, the non-toxic ink composition comprises from about 4% to about 6% of nitrolacquer; from about 8% to about 12% of polyester resin; from about 49% to about 58% of solvent comprising at least one selected from the group consisting of acetic ether, butyl acetate, N-butyl alcohol, isophorone, toluene, and xylene; from about 20% to about 34% of pigment such as titanium white; and from about 1% to about 3% of plasticizer. From about 2% to about 4% by weight of a conventional dispersing agent can also be added. Dispersing agents are well known in the art. Examples include, e.g., sodium silicate, polyphosphates, lignin derivatives, etc. Other agents such as thinner for printing, e.g., methyl isobutyl ketone can also be added. As will be apparent to skilled artisans, the above mentioned chemicals are typically commercially available, e.g., from Union Carbide Company, Lu Zhou Chemical Factory, PRC, BYK-Chemie GmbH, SCM Company, U.S.A., and many other chemical companies.
The non-toxic ink composition can be formed by any conventional manners. For example, when nitrolacquer and polyester resin are used as the resin component, the composition may be prepared by dissolving nitrolacquer in a portion of the solvent, and tempering this with the plasticizer and a dispersion of the polyester resin and pigment in the remaining solvent. The tempered composition can then be purified to produce the finished non-toxic ink composition.
The patterns or characters formed by the non-toxic ink on the transferring medium become stable after about 3 hours and are then peeled off from the transferring medium with water to form a decal, i.e., a stabilized pattern or character ready to be transferred onto a workpiece.
The decal is then placed on the surface of a workpiece, optionally using a template to accurately place the patterns or characters on the workpiece. The workpiece surface to be printed can be any surface, including an untreated or treated metal or non-metal surface or an irregular or flat surface.
The decal on the workpiece may optionally be dried by cloth or soft paper to ensure that no gas or water is trapped between the decal and the workpiece. At this stage the decal is temporarily adhered to the workpiece. The patterns or characters are then firmly adhered to the workpiece by fixing.
The fixing step is conducted to firmly adhere the decal, i.e., the character, pattern, or image, to the surface of the workpiece. That is to say, after fixing, the decal should adhere to the workpiece surface for a sufficient time such that the purposes of ordinary use of the printed pattern on the workpiece can be achieved. Preferably, the pattern or character should adhere to the workpiece surface for at least the ordinary useful life of the workpiece. The fixing may be carried out at a temperature in the range of from room temperature to about 150° C. for a sufficient time such that the pattern or character firmly adheres to the workpiece surface.
The choice of fixing temperature and duration is dependent upon the thermal stability of the workpiece surface. If the fixing step is carried out at room temperature, firm adherence of the pattern or character is achieved in about 24 to 48 hours. The transfer of the decal to the workpiece can be accelerated by subjecting the workpiece with the attached decal to a higher temperature above room temperature. Workpiece surfaces such as glass, ceramic or china can be treated at less than about 110° C. (e.g. with boiled water) for about 1 to about 120 minutes and firm adherence of the decal is produced upon cooling to room temperature. Metallic workpiece surfaces can be heated at from, e.g., about 60° C. to about 100° C., preferably at about 90° C. for about 1 to about 60 minutes, preferably about 5 to about 30 minutes to provide firm adherence of the pattern or character to the workpiece. Workpiece surfaces such as plastic e.g. ABS plastic, wood and fiberglass c
Crispino Richard
Hawkins Cheryl N.
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