WO2001033279A1

WO2001033279A1 - Cover glass having mounting medium printed thereon and method of producing the same

Info

Publication number: WO2001033279A1
Application number: PCT/JP2000/000125
Authority: WO
Inventors: Yozo Muto
Original assignee: Muto Pure Chemicals Co., Ltd
Priority date: 1999-10-27
Filing date: 2000-01-13
Publication date: 2001-05-10
Also published as: JP2001125006A

Abstract

A cover glass adapted for easy, efficient enclosure of a clinical test sample. A method of producing a cover glass of predetermined size having a mounting medium printed thereon, comprising the steps of forming a film of a mounting medium on a cover glass blank by printing, and cutting the cover glass blank along the region where the mounting medium is not printed. Efficient, uniform printing makes it possible to produce a cover glass of stabilized performance having a mounting medium printed thereon.

Description

Description Printed encapsulant printed on cano, glass, and manufacturing method

According to the present invention, an encapsulant characterized by forming a film of an encapsulant on a cover glass base plate by printing and then cutting the cover glass base plate is printed. And a method for producing the same.

In more detail, the mounting medium is printed on a cover glass base plate, and then the solvent in the mounting medium is evaporated to form a cover glass base plate. It is smooth and transparent and has a thickness of 1 to 500 ym, preferably 5 to 50 m, and its vertical and horizontal lengths are at least smaller than the required dimensions of the cover glass. A film of the encapsulant, each 1 mm shorter, is formed, and then the cover glass base plate is cut at a portion where the encapsulant film is not printed. More specifically, the present invention relates to a canopy printed with an encapsulant, which is characterized in that a cover glass of a predetermined size is cut out, a glass, and a method of manufacturing the same. Background art

Specimens used in clinical examinations, such as histopathological section specimens and cytological smears, are stained on slide glass and then alcohol, such as ethanol. It is then dehydrated and cleared with a hydrocarbon solvent such as xylene, and then sealed for storage.

The encapsulation is performed by dropping the mounting medium onto a slide glass on which the specimen is placed, and then covering it with a cano and a glass.

Usually, the mounting medium is a viscous solution of a transparent substance dissolved in a solvent.

After mounting, the solvent in the mounting medium should have a narrow gap between the cover glass and the slide glass. It evaporates from before, and finally the specimen will be embedded in a transparent material between the cover glass and the slide glass, and preserved in this state Is performed well.

The mounting medium usually contains stabilizers such as antioxidants and ultraviolet absorbers to prevent fading of stained specimens.

As described above, at the time of encapsulation, one to two (or more) drops of the encapsulating agent are dropped onto the cover glass for each sample, and thereafter, the cover glass is applied. They need to be covered, which is complicated.

Also, in order for the dropped encapsulant to spread evenly on the cover glass, a considerably skilled technique is required.

Furthermore, since the solvent contained in the mounting medium eventually evaporates and is released into the air, there has been a problem in occupational health.

The present invention has been made to solve these problems. Disclosure of the invention

The encapsulant used in the present invention is a viscous liquid in which a transparent substance is dissolved in a solvent.

Kano, the glass base plate is 400 to 500 mm long, 400 to 500 mm wide, 0.08 to 0.30 mm thick, preferably 0 . 10 — 0.20 mm in size, which is cut and used for the production of cover glass.

By using a high-performance printing machine, it is possible to efficiently produce a cover glass on which a large amount of mounting medium is printed.

The amount of the transparent substance contained in the mounting medium is 20 to 80% by weight of the mounting medium, preferably 30 to 70% by weight. .

In order to evaporate the solvent in the mounting medium, at room temperature or at a temperature above room temperature, Methods such as blast drying can be used. BRIEF DESCRIPTION OF THE FIGURES

The shaded area in Fig. 1 is the area where the encapsulant is printed, and the cover glass plate is cut along the solid cutting line (the area where the encapsulant is not printed). Let go.

In the cover glass on which the mounting medium is printed as shown in Fig. 2, the mounting medium is printed in the center, and there is a portion along the edge where the mounting medium is not printed. ing . BEST MODE FOR CARRYING OUT THE INVENTION

In the present invention, after evaporating the solvent in the encapsulant, the encapsulant film formed is smooth and transparent and has a thickness of 1 to 500 μηη, preferably 5 to 500 μηη. At 50 m, the vertical and horizontal lengths are each at least 1 mm shorter than the required dimensions of the cover glass.

Accordingly, since there is a portion where the encapsulant is not printed at least at a distance of 2 mm between the encapsulant coatings, the cover glass is formed in the portion. By cutting the blank, it is possible to cut out a cover glass of a predetermined size.

The solvent required for encapsulation is sufficient for the solvent remaining on the slide glass after being taken out of the xylene tank, and additional solvents should be added. There is no need to drip.

Hereinafter, the present invention will be described in detail with reference to Examples, but it should not be construed that the invention is limited thereto.

Marinol (manufactured by Muto Chemical Co., Ltd.) was used as an encapsulant.

As the raw material for the cover glass, a plate manufactured by Dow Corning was used. The dimensions were 420 mm in length, 420 mm in width, and 0.155 mm in thickness.

On the cover glass base plate, a canopy of 24 mm in length and 50 mm in width, In order to manufacture the fabric, a total of 120 sheets of the coating (22 mm in length and 48 mm in width) were printed in 8 rows and 15 rows. The vertical and horizontal directions were separated by 2 mm each.

After using a blow dryer to dry the film sufficiently, cut off the area where the film is not printed, and print the encapsulant with the specified dimensions. 0 pieces were manufactured.

Using a canopy glass on which the encapsulant produced in this way was printed, encapsulation was performed manually and by an automatic encapsulation machine.

In each case, efficiency was good and good results were obtained. Industrial applicability

When manufacturing a cover glass on which the encapsulant is printed, there is an unprinted part of the encapsulant between the coating films of the encapsulant that has been printed. By cutting the cover glass, it is possible to manufacture a cover glass on which a predetermined size of the encapsulant is printed.

Claims

Scope of the request The encapsulant is printed on the cover glass base plate, and then the solvent in the encapsulant is evaporated to provide a smooth and smooth surface on the cover glass base plate. It is transparent and has a thickness of 1 ~ 500m, preferably 5 ~ 50 / m, and its vertical and horizontal lengths are at least less than the specified dimensions of the force glass. The encapsulant film is formed 1 mm shorter each time, and then the cover glass base plate is cut at a portion where the encapsulant film is not printed. A cover glass on which an encapsulant is printed, characterized in that a cover glass having a predetermined size is cut out, and a method of manufacturing the cover glass.