US1132384A - Method of manufacturing stamping or printing dies or plates or blocks. - Google Patents

Method of manufacturing stamping or printing dies or plates or blocks. Download PDF

Info

Publication number
US1132384A
US1132384A US63011411A US1911630114A US1132384A US 1132384 A US1132384 A US 1132384A US 63011411 A US63011411 A US 63011411A US 1911630114 A US1911630114 A US 1911630114A US 1132384 A US1132384 A US 1132384A
Authority
US
United States
Prior art keywords
blocks
plates
printing
acetone
acetyl cellulose
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US63011411A
Inventor
Josef Richter
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US63011411A priority Critical patent/US1132384A/en
Application granted granted Critical
Publication of US1132384A publication Critical patent/US1132384A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C51/00Shaping by thermoforming, i.e. shaping sheets or sheet like preforms after heating, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor
    • B29C51/08Deep drawing or matched-mould forming, i.e. using mechanical means only
    • B29C51/082Deep drawing or matched-mould forming, i.e. using mechanical means only by shaping between complementary mould parts

Definitions

  • the present invention relates to an improved method of manufacturing, stamping or printing dies or plates or blocks- It has been proposed to use celluloid for this purpose. but such plates or blocks are too hard at the edges and wear off too easily. Further, they do not properly fit to the surface onto which they are applied, and on the slightest superheating, which is generally unavoidable, blisters are formed. Attempts have also been made to employ acetyl cellulose. This was obtained from solutions in acetic ether, chloroform or acetone, but sheets of sufficient thickness for making deep impressions can not be obtained, even if non-drying oils and phenol derivatives are added to the solutions. These oils cause blisters and the masses obtained from the solutions are sticky.
  • these masses only soften at a high temperature, and it is therefore necessar to heat them to 120 150 centigrade. t these temperatures the acetyl cellulose decomposes and it is :difficult to handle the hot sheets, more esfabrics, or other According to the present invention the above disadvantages are obviated by employing masses which consist of acetyl-cellulose preferably soluble in acetone, prepared in various ways to yield a suitable product, such as by treatment of acetonesoluble ac'etyl cellulose with mixtures of non-solvents or of solvents and non-solvents, with or without the addition of camphor or camphor substitutes, and filling materials.
  • acetone-soluble acetyl cellulose may be treated with camphor or camphor substitutes in quantities not suflicient for dissolving the acetyl cellulose.
  • the above known methods of preparing such masses are not clai ed.
  • the invention is concerned with the production from them of printingplates, which is rendered possible by their special properties,- i. 0., their hardness when cold their low melting point, and their ca- -"'pacity of yielding a sharp impression when Patented Mar. 16, 1915.
  • This process is also applicable ,in making printing blocks of objects such as lace, fabrics, relief designs and the like. These objects can be readily pressed into the highly softened, hot material, thus producing a block which is equal to those made by the expensive way of engraving, etching or wood-carving. Beliefs and printing blocks can then be roduced in any desired number by pressing the ,perfectly cold matrix against a very hot softened sheet of the material, when the two parts can be taken apart a very short time after effecting the impression without damage. It is remarkable that this result is obtained even though the sheets are not necessarily different in composition and can have exactly the same melting point.
  • a material can be used in which filling materials, such as mica and other suitable substances, are added to the acetyl cellulose mass in quantities of from molded themselves or the like can be pressed into such material, thus forming a matrix from which as many counterparts can be molded as desired: even if the same material is used for the male counterpart and the matrix, these do not stick together as is the case with celluloid.
  • filling materials such as mica and other suitable substances
  • the dies, blocks or plates are very cheap as com: pared with metal printing blocks, they can be quickly produced, are impervious to shocks or mechanical damages during trans port, and are not affected by atmospheric influences. They serve for replacing metal printing blocks or rollers, steel engravings, zinc clichs, sets of stereotypes, as well as cardboard and powder matrices.
  • the printing surfaces are also very suitable for rotary printing, as they easily attach themselves to the cylinder and the like.
  • a method of making a printing plate consisting in forming from acetyl oellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not sufficient for dissolving the acetyl cellulose, the materials and proportions being specially selected so as to give a body having a softening point of over 60 and below 100 0., then heating the said hard solid body to a point above the point at which it becomes plastic and nearly to the point at which it is made pasty by said heating, and while so heated forming it into a printing plate.
  • a method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not suflicient for dissolving the acetyl cellulose, the materials and proportions being specially selected, together with the addition of more 3.
  • a method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not sulficient for dissolving the acetyl cellulose, the materials and proportions being specially selected so as to give a body having a softening point of over and below 100 0.,'
  • a method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities notsuflicient for dissolving the acetyl cellulose, the materials and proportions being specially selected, together with the addition of more than 50 per cent. of filling materials, so as to give a body having a softening point of over 60 or below 100 0., then heating said hard solid body or mass to a point above the point at which it becomes plastic and nearly to the point at which it is made pasty by said heating and while so heated subjecting it to pressure a ainst an object I to mold it into the desired orm.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Manufacture Or Reproduction Of Printing Formes (AREA)

Description

- pecially because paper,
foundations become carbonized thereby.
UNITED STATES PATENT OFFICE.
J'OSEF RICHTER, OF GENEVA, SWITZERLAND.
METHOD OF MANUFACTURING STAMPING b3 PRINTING DIES OR PLATES OR BLOCKS.
No Drawing.
T 0 all whom it may concern Be it known that I, Josnr RICHTER, subject of the Republic of Switzerland, resid- 1ng at 3 Quai du Montblanc, Geneva, Switzerland, have invented certain new and useful Improvements in Improved Methods of Manufacturing Stamping or Printing Dies or Plates or Blocks, of which the following is a specification.
The present invention relates to an improved method of manufacturing, stamping or printing dies or plates or blocks- It has been proposed to use celluloid for this purpose. but such plates or blocks are too hard at the edges and wear off too easily. Further, they do not properly fit to the surface onto which they are applied, and on the slightest superheating, which is generally unavoidable, blisters are formed. Attempts have also been made to employ acetyl cellulose. This was obtained from solutions in acetic ether, chloroform or acetone, but sheets of sufficient thickness for making deep impressions can not be obtained, even if non-drying oils and phenol derivatives are added to the solutions. These oils cause blisters and the masses obtained from the solutions are sticky.
Further, these masses only soften at a high temperature, and it is therefore necessar to heat them to 120 150 centigrade. t these temperatures the acetyl cellulose decomposes and it is :difficult to handle the hot sheets, more esfabrics, or other According to the present invention the above disadvantages are obviated by employing masses which consist of acetyl-cellulose preferably soluble in acetone, prepared in various ways to yield a suitable product, such as by treatment of acetonesoluble ac'etyl cellulose with mixtures of non-solvents or of solvents and non-solvents, with or without the addition of camphor or camphor substitutes, and filling materials. Or acetone-soluble acetyl cellulose may be treated with camphor or camphor substitutes in quantities not suflicient for dissolving the acetyl cellulose. The above known methods of preparing such masses are not clai ed. The invention is concerned with the production from them of printingplates, which is rendered possible by their special properties,- i. 0., their hardness when cold their low melting point, and their ca- -"'pacity of yielding a sharp impression when Patented Mar. 16, 1915.
Application flied my 29, 1911. Serial No. 630,114.
heated even up to the melting point. The process is describedmore fully below. It essentially consists in heating the material above the softening point before making the impression. For example, these masses are produced from acetone-soluble acetyl cellulose Which has been treated with camphor or camphor substitutes and cut into blocks or mechanically rolled. These masses are distinguished by their extreme hardness and exceedingly low softening point. Their melting point is even lower than that of celluloid as they melt or soften at about 70 centigrade. Now, the surprising fact has been discovered that if sheets of this material, which can be obtained in any desired thickness of 23 millimeters and more are brought quite to the melting point, good printing blocks can be produced, although partial decomposition takes place with the formation of blisters. It is on this remarkable property that the invention depends. The material is heated over 50 and up to 100 centigrade, when it becomes highly softened. WVhen the male counterparts are pressed into the matrix, the blisters absolutely disappear under the pressure, the surface becomes perfectly smooth, and the details of the design appear in extraordinary fineness, and in a surprising shading off of the middle tones. These effects can not e obtained with celluloid or with the masses obtained from solutions of acetyl cellulose in ether, chloroform or acetone.
This process is also applicable ,in making printing blocks of objects such as lace, fabrics, relief designs and the like. These objects can be readily pressed into the highly softened, hot material, thus producing a block which is equal to those made by the expensive way of engraving, etching or wood-carving. Beliefs and printing blocks can then be roduced in any desired number by pressing the ,perfectly cold matrix against a very hot softened sheet of the material, when the two parts can be taken apart a very short time after effecting the impression without damage. It is remarkable that this result is obtained even though the sheets are not necessarily different in composition and can have exactly the same melting point. A material can be used in which filling materials, such as mica and other suitable substances, are added to the acetyl cellulose mass in quantities of from molded themselves or the like can be pressed into such material, thus forming a matrix from which as many counterparts can be molded as desired: even if the same material is used for the male counterpart and the matrix, these do not stick together as is the case with celluloid.
It is a very important advantage of the present invention that no shrinkage or variation of dimensions occurs b the evaporation of solvents, which is 0% special importance for multicolor printing. The dies, blocks or plates are very cheap as com: pared with metal printing blocks, they can be quickly produced, are impervious to shocks or mechanical damages during trans port, and are not affected by atmospheric influences. They serve for replacing metal printing blocks or rollers, steel engravings, zinc clichs, sets of stereotypes, as well as cardboard and powder matrices. The printing surfaces are also very suitable for rotary printing, as they easily attach themselves to the cylinder and the like.
What I claim as new and desire to secure by Letters Patent is 1. A method of making a printing plate consisting in forming from acetyl oellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not sufficient for dissolving the acetyl cellulose, the materials and proportions being specially selected so as to give a body having a softening point of over 60 and below 100 0., then heating the said hard solid body to a point above the point at which it becomes plastic and nearly to the point at which it is made pasty by said heating, and while so heated forming it into a printing plate.
2. A method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not suflicient for dissolving the acetyl cellulose, the materials and proportions being specially selected, together with the addition of more 3. A method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities not sulficient for dissolving the acetyl cellulose, the materials and proportions being specially selected so as to give a body having a softening point of over and below 100 0.,'
then heating said hard solid body or mass to a point above the point at which it becomes plastic and nearly to the point at which it is made pasty by said heating and while so heated subjecting it to pressure against an object adapted to mold it into the desired form. I
4. A method of making a printing plate consisting in forming from acetyl cellulose soluble in acetone and camphor substitutes a hard solid body or mass having very slight plasticity, said acetone and camphor substitutes being used in quantities notsuflicient for dissolving the acetyl cellulose, the materials and proportions being specially selected, together with the addition of more than 50 per cent. of filling materials, so as to give a body having a softening point of over 60 or below 100 0., then heating said hard solid body or mass to a point above the point at which it becomes plastic and nearly to the point at which it is made pasty by said heating and while so heated subjecting it to pressure a ainst an object I to mold it into the desired orm.
In testimony whereof I afiix my signature in presence of two Witnesses.
J OSEF RICHTER.
Witnesses E. Lo'r'rl T. STRAUSS.
US63011411A 1911-05-29 1911-05-29 Method of manufacturing stamping or printing dies or plates or blocks. Expired - Lifetime US1132384A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US63011411A US1132384A (en) 1911-05-29 1911-05-29 Method of manufacturing stamping or printing dies or plates or blocks.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US63011411A US1132384A (en) 1911-05-29 1911-05-29 Method of manufacturing stamping or printing dies or plates or blocks.

Publications (1)

Publication Number Publication Date
US1132384A true US1132384A (en) 1915-03-16

Family

ID=3200506

Family Applications (1)

Application Number Title Priority Date Filing Date
US63011411A Expired - Lifetime US1132384A (en) 1911-05-29 1911-05-29 Method of manufacturing stamping or printing dies or plates or blocks.

Country Status (1)

Country Link
US (1) US1132384A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2647284A (en) * 1949-02-25 1953-08-04 News Syndicate Co Inc Method of curving a flat molded plastic printing plate

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2647284A (en) * 1949-02-25 1953-08-04 News Syndicate Co Inc Method of curving a flat molded plastic printing plate

Similar Documents

Publication Publication Date Title
US1132384A (en) Method of manufacturing stamping or printing dies or plates or blocks.
US4241189A (en) Wear-resistant flexible sheet material and a method for its manufacture
US2050843A (en) Modified vinyl resin and process of making it
US2215573A (en) Production of shaped articles
US1972166A (en) Molding cellulose derivative plastics
DE669793C (en) Process for the production of shaped articles from polymerization products of bodies with an olefinic double bond
US213601A (en) Improvement in india-rubber articles
US1510779A (en) Richabd hebbmaot
DE666416C (en) Process for the production of molded articles
AT102928B (en) Process for the production of articles of daily use from waste of plastic masses made from cellulose derivatives.
US1539084A (en) Manufacture of imitation mother-of-pearl
DE401485C (en) Process for the production of micanite articles
DE856525C (en) Process for the production of molded articles from polyvinyl chloride
DE246081C (en)
US675011A (en) Process of preparing and manipulating fibrous material for relief-work.
US1170391A (en) Process of forming sound-records and other objects.
US1815655A (en) Plastic and soluble derivative of cellulose
DE862369C (en) Molding compounds based on polyvinyl chloride
US11831A (en) Improvement in gutta-percha stereotype composition
AT72428B (en) Replacement of metal plating, stereotypes, etching and the like.
US1604805A (en) Process of making a laminated composition
AT154143B (en) Process for the production of synthetic compositions from polyvinyl chloride.
US1960602A (en) Matrix
US1996216A (en) New celluloid like artificial compound of a polyvinyl alcohol aldehyde condensation product
US1993708A (en) Liquid coating composition