US1336576A - Method of producing digging-teeth - Google Patents
Method of producing digging-teeth Download PDFInfo
- Publication number
- US1336576A US1336576A US248237A US24823718A US1336576A US 1336576 A US1336576 A US 1336576A US 248237 A US248237 A US 248237A US 24823718 A US24823718 A US 24823718A US 1336576 A US1336576 A US 1336576A
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- article
- producing
- ultimate
- teeth
- digging
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21K—MAKING FORGED OR PRESSED METAL PRODUCTS, e.g. HORSE-SHOES, RIVETS, BOLTS OR WHEELS
- B21K9/00—Reconditioning railroad accessories, e.g. rails
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49448—Agricultural device making
Definitions
- the present invention relates to teeth for digging implements or digging teeth used under conditions which can fairly be illustrated bythe cutting or digging teeth applied to the buckets, scoops, chains or the like ofexcavatin machines.
- the invention is especially applicable to and advantageous in the production of such teeth from manganese steel.
- FIG. 1 shows in side elevation, and Fig. 2 in top plan view, a standard form of tooth for an excavating bucket or scoop, which is selected to illustrate the character of the article in the production of which the difliculties have been encountered which it is the object of the present invention to overcome.
- This article involves the eculiarity of enlarging from a comparatlvely thin cutting end. 1, back through a gradually thickening' portion 2, where in the present illustration, there is an opening 3, by which it is fitted to the base or. object upon which it is to be mounted.
- the upper and lower walls 3, 3 of the opening 3 being comparatively thin, and not being called upon to afford any extreme resistance to force, involve no particular problem in producing them in proper condition; but from the point .1 back through the gradually thickening metal to about the line 4-4 where the article is required, in use, to withstand very large stresses, especially in its transverse direction, it is extremely difficulty in manufacture, to avoid conditions which tend to reduce the capacity of the tooth to meet suchstrains.
- manganese steel offrom 10 to 14 per cent It is a known fact that manganese steel offrom 10 to 14 per cent. manganese is the most economical material for producing articles of this kind and the present invention deals particularly with the production of such articles from this material. In pro-.
- the present invention successfully over comes the difiiculties above mentioned, of low. resistance to transverse strains and to wear in articles of this kind. Tests made show that by the present invention the goods are improved as much as 200 per cent. in this respect when measured by length of lowed as heretofore but a somewhat changed pattern is employed, a work-piece being produced which varies from the ultimate form required and the latter being obtained by a for ing and working of the work-piece,
- a pattern is made corresponding to the obJect to be produced except at the forward end where it is modified to accord with the shape indicated by broken lines on the drawing. That is tosay, a work-piece is first formed that terminates short of the pomt 1 but which has its transverse dimension, adjacent said point, increased to an extent suflicient to contribute the metal necessary to form the point 1 and having this additional metal so distributed thereon that in forging the workpiece to ultimate shape, the texture of the 30. metal is treated as well, and any imperfections therein, resultin from casting the manganese steel, are eliminated.
- the increased thickness shown at oint 5 must be not merely suflicient to bring out the point 1; but it should be'approximately two-thirds more than the mass of metal indicated by the outline of the point beyond the thickened portion, and it should be'distributed substantially as shown.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Forging (AREA)
Description
W. G. NICHOLS.
METHOD OF PRODUCING DIGGING TEETH.
APPLICATION FILED AUG-511918.
Patented Apr. 13, 1920.
UNITED STATES PATENT OFFICE.
.WESLEY G. NICHOLS, OF CHICAGO HEIGHTS, ILLINOIS, ASSIGNOR TO AMERICAN MANGANESE STEEL COMPANY, OF CHICAGO,
MAINE.
ILLINOIS, A CORPORATION 0]? METHOD OF PRODUCING DIG-GING-TEETH.
Specification of Letters Patent.
Patented Apr. 13, 1920.
Application filed August 5, 1918. Serial No. 248,237.
new anduseful Improvements in Methods of Producing Digging-Teeth, of which the following is a specification. p
The present invention relates to teeth for digging implements or digging teeth used under conditions which can fairly be illustrated bythe cutting or digging teeth applied to the buckets, scoops, chains or the like ofexcavatin machines. The invention is especially applicable to and advantageous in the production of such teeth from manganese steel. p
In the accompanying drawing Figure 1 shows in side elevation, and Fig. 2 in top plan view, a standard form of tooth for an excavating bucket or scoop, which is selected to illustrate the character of the article in the production of which the difliculties have been encountered which it is the object of the present invention to overcome. This article involves the eculiarity of enlarging from a comparatlvely thin cutting end. 1, back through a gradually thickening' portion 2, where in the present illustration, there is an opening 3, by which it is fitted to the base or. object upon which it is to be mounted. The upper and lower walls 3, 3 of the opening 3 being comparatively thin, and not being called upon to afford any extreme resistance to force, involve no particular problem in producing them in proper condition; but from the point .1 back through the gradually thickening metal to about the line 4-4 where the article is required, in use, to withstand very large stresses, especially in its transverse direction, it is extremely difficulty in manufacture, to avoid conditions which tend to reduce the capacity of the tooth to meet suchstrains.
It is a known fact that manganese steel offrom 10 to 14 per cent. manganese is the most economical material for producing articles of this kind and the present invention deals particularly with the production of such articles from this material. In pro-.
ducing these articles from this material they must e cast with great care and under the most favorable conditions, as for instance by introducing the metal into the mold through a head or riser directly over or adjacent the heavy-section 2, to insure suflicient feed of material thereto and prevent internal seg- -regation of the material in the casting; but
even with these precautions it is not always possible to insure the required density in this heavy section of the article, owing to the difficulty of employing sufficient neck or connecting passage between the mold and the head or riser referred to. If, on the one hand, a neck of ample capacity is used, subsequent breaking ofl or removal of the head is liable to carry the break into the casting. On the other hand, a sufliciently small connecting neck is liable to result in a structure, in the casting, of undesirable coarseness or very large crystals. Metallographists have proved that steel having a microstructure of large crystals is weaker than steel having a microstructure of small crystals. This principle holds true for manganese steel. In numerous instances, inspection of articles of the kind herein illustrated, that have failed in use, has shown that fracture occurred in the heavy section 2 and microscopic examination of the broken surface revealed the fact that the failure was due to a structure of large crystals. In many other instances such articles have been found to fail in use by developing softness or lack ofresistance to wear, in some instances showing no greater resistance than carbon steel, whereas relatively expensive manganese steel had been selected for the production of the article because of its supposed superior hardness and resistance to wear. This condition of low resistance to wear has also been traced to large crystals or improper density in the texture of the steel.
The present invention successfully over comes the difiiculties above mentioned, of low. resistance to transverse strains and to wear in articles of this kind. Tests made show that by the present invention the goods are improved as much as 200 per cent. in this respect when measured by length of lowed as heretofore but a somewhat changed pattern is employed, a work-piece being produced which varies from the ultimate form required and the latter being obtained by a for ing and working of the work-piece,
mamly localized upon the Vulnerable or critical portion of the article, and having the effect of bringing the texture up to the required quality notwithstanding imperfections therein that may have resulted from the conditions peculiar to manganese steel -that have been alluded to.
In carrying out the present invention a pattern is made corresponding to the obJect to be produced except at the forward end where it is modified to accord with the shape indicated by broken lines on the drawing. That is tosay, a work-piece is first formed that terminates short of the pomt 1 but which has its transverse dimension, adjacent said point, increased to an extent suflicient to contribute the metal necessary to form the point 1 and having this additional metal so distributed thereon that in forging the workpiece to ultimate shape, the texture of the 30. metal is treated as well, and any imperfections therein, resultin from casting the manganese steel, are eliminated. In realizing these results, the increased thickness shown at oint 5 must be not merely suflicient to bring out the point 1; but it should be'approximately two-thirds more than the mass of metal indicated by the outline of the point beyond the thickened portion, and it should be'distributed substantially as shown.
40 Therefore in the preferred detail of procedurethe excess of metal developing the increased thickness will taper from the area 5-5 backward and will merge with the ultimate outline of the article by the time it reaches the rear limit 44 of the heavy por- ,tion of the ultimate tooth.
As a specific instance and by way of disclosing the best way known to me of realizing the result, it may be explained that a pattern is made corresponding to the figure of thedrawing modified in accordance with the broken lines and omitting point 1. A casting is then made to correspond to this pattern, standard foundry practice being followed. The casting is then removed from the' flask, cleaned and ground. It is, then heated in any suitable forge or furnace to about 1800 F., throughout that portion indicated between the line 55 and the line 4-4 and held at such temperature until the heat has penetrated the entire section, care 7 being taken that the temperature does not greatly exceed that degree in any part of the metals The casting is then removed with this heat and placed under a steam or,
air hammer, bulldozer or hydraulic press, and the heated part worked until it assumes the shape shown in full lines in' the drawing. The entire casting will then be placed in any suitable furnace and subjected to the standard heat treatment for manganese steel.
I have found in practice that an article the ultimate article, and with the excess of metal distributed so that the increase of thickness is greater toward the thin end of the article, and then forging the work-piece, at a suitable temperature, to reduce it to the ultimate form and improve the texture of its metal.
2. The improvement in the art of producing tapered articles of manganese steel requiring strength and hardness in use, which consists in casting a blank or work-piece of approximately the ultimate form desired but with an excess of metal that develops thereon an increased thickness relative to that of the ultimate article, and with the excess of metal distributed so that the increase of thickness is greater toward the thin end of the article, and then forging the work-piece, at a suitable temperature until its increased thickness is reduced to that of the ultimate article and the length of the article is increased to the length desired.
3. The improvement in the art of producing from manganese steel articles of tapered section having a reduced working edge and requirin great strength and resistance in use; sai improvement consisting in casting from manganese steel a work-piece terminatmglshort of the cutting edge required and of a t ickness adjacent said edge increased relatively to that .of the ultimate article to be produced; heating the' work-piece so formed to a suitable temperature and then forging the work-piece w ile hot to bring it to the ultimate form desired.
4. The improvement in the art of producing from manganese steel articles of tapered 'tively to thatof the ultimate article to be produced; heating the worktpiece so formed to a suitable temperature and then forging the Work-piece While hot to bring it to the ultimate form desired; the increased thickness of the work-piece relatively to the ultimate article being distributed from the for- Work-piece merges with that of the ultimate 10 article.
Signed at Chicago Heights,
of July, 1918.
this 27th day WESLEY G. NICHOLS.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US248237A US1336576A (en) | 1918-08-05 | 1918-08-05 | Method of producing digging-teeth |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US248237A US1336576A (en) | 1918-08-05 | 1918-08-05 | Method of producing digging-teeth |
Publications (1)
Publication Number | Publication Date |
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US1336576A true US1336576A (en) | 1920-04-13 |
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US248237A Expired - Lifetime US1336576A (en) | 1918-08-05 | 1918-08-05 | Method of producing digging-teeth |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2422193A (en) * | 1944-06-12 | 1947-06-17 | Westinghouse Electric Corp | Method of making cast turbine blading |
US2977823A (en) * | 1958-12-17 | 1961-04-04 | Russell T Conn | Slotter knives and method of making same |
US20080066351A1 (en) * | 2006-09-18 | 2008-03-20 | Deere & Company | Bucket teeth having a metallurgically bonded coating and methods of making bucket teeth |
-
1918
- 1918-08-05 US US248237A patent/US1336576A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2422193A (en) * | 1944-06-12 | 1947-06-17 | Westinghouse Electric Corp | Method of making cast turbine blading |
US2977823A (en) * | 1958-12-17 | 1961-04-04 | Russell T Conn | Slotter knives and method of making same |
US20080066351A1 (en) * | 2006-09-18 | 2008-03-20 | Deere & Company | Bucket teeth having a metallurgically bonded coating and methods of making bucket teeth |
US9003681B2 (en) * | 2006-09-18 | 2015-04-14 | Deere & Company | Bucket teeth having a metallurgically bonded coating and methods of making bucket teeth |
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