US1717907A - Dipper front - Google Patents

Dipper front Download PDF

Info

Publication number
US1717907A
US1717907A US229249A US22924927A US1717907A US 1717907 A US1717907 A US 1717907A US 229249 A US229249 A US 229249A US 22924927 A US22924927 A US 22924927A US 1717907 A US1717907 A US 1717907A
Authority
US
United States
Prior art keywords
corrugated portion
dipper
corrugated
edge
cooling
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
US229249A
Inventor
Oscar W Andersen
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.)
Pettibone Traverse Lift LLC
Original Assignee
Pettibone Mulliken Corp
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 Pettibone Mulliken Corp filed Critical Pettibone Mulliken Corp
Priority to US229249A priority Critical patent/US1717907A/en
Application granted granted Critical
Publication of US1717907A publication Critical patent/US1717907A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02FDREDGING; SOIL-SHIFTING
    • E02F3/00Dredgers; Soil-shifting machines
    • E02F3/04Dredgers; Soil-shifting machines mechanically-driven
    • E02F3/28Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, i.e. there is either one arm or a pair of arms, e.g. dippers, buckets
    • E02F3/36Component parts
    • E02F3/40Dippers; Buckets ; Grab devices, e.g. manufacturing processes for buckets, form, geometry or material of buckets

Definitions

  • My invention relates to front, cast metal portions of clippers or buckets for use in excavating, dredging, or similar work.
  • One of my objects is to reduce the weight and cost of construction of such fronts particularly when formed of manganese steel, without sacrificing strength of the structure, thereby permitting the buckets to be made of lighter weight with the advantage of reduction in cost of construction and operation and increase in eliiciency in the use of the bucket.
  • Another object is to provide a construction of dipper front by which the molding thereof may be facilitated, improved castings produced and danger of fracture of the metal in cooling, minimized.
  • Figure 1 is a view in side elevation of a dipper front constructed in accordance with my invention.
  • Figure 2 is a plan sectional view of the front taken at the line 2 on Fig. 1 and viewed in the direction of the arrow; and
  • Figure 8, a view in vertical sectional. elevation of the front, the section being taken at the line 3 on Fig. 2 and viewed in the direction of the arrow.
  • he front shown which is of general curved shape in plan is provided at opposite sides, adjacent its upper edge, with rearwardly extending plate-like portions 4- containing openings 5 (the opening in one only of the plate portions 4 being shown) for receiving the bail pivots, the side portions of the front being represented as containing series of rivet-receiving holes 6 at which the front would be connected with the rear wall and side wall forming portion of the bucket.
  • front is formed to provide along its upper edge a lip portion '1' which is customarily equipped with dipper teeth (not shown) secured thereto in any desired manner.
  • the main portion of the dipper front below the lip is of corrugated form with the corrugations extending lengthwise of the front as shown, the lower edge portion of the dipper front. and along which the corrugations referred to extend to the extreme bottom of the front, being thickened as represented at 8.
  • the corrugated portion of the front, at any given plan cross section thereof is of uniform tlnckness and of the same thickness at any given plan cross section except at the lower thickened part 8 of the front which, while of uniform thickness at any given plan cross section therethrough, is of greater thickness than the corrugated portion above it.
  • the forming of the dipper front with the corrugated portion as described is of advantage not only because the corrugations afford great stifiness to the structure permitting the front to be formed much thinner than in the case of a plain front andconsequently lightening the weight of the structure with the manifest advantage, but also because the casting of such a front, as compared with the casting of fronts of ribbed form of a non-uniform cross sectional thickness, is facilitated and danger of fracturing the metal in cooling, which is very apt to occur in such ribbed constructions, is minimized.
  • connection between the relatively thin corrugated portion and the relatively thick adjacent portion of the front is along an undulating line whereby the corrugated portion buckles in the subsequent cooling of the relatively thick portion, in casting, thereby greatly reducing the stresses created in the metal at the juncture of these portions compared with the stresses produced in structures which present straight-line junctures or the equivalents thereof between the relatively thin and the relatively thick portions thereof, the greatest reduction of stresses be-- ing effected where the metal of the corrugated portion is of substantially uniform thickness and the corrugations are continuous and of curved form as shown.
  • VJ hat I claim as new, and desire to secure by Letters Patent is:
  • a cast-metal clipper-front comprising a relatively thick edge portion extending cross wise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, the corrugations tion and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness, said corrugations being of such form thatthey will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling whereby stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will be miniinized.
  • a cast-metal dipper-front comprising a relatively thick edge portionextending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, said corrugated p'or tion being substantially continuously corrugated throughout its extent the corrugations of said corrugated portions extending lengthwise of the dipper front whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion rel- .ative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be min- 7 imizedi tively thick edge portion relative to said corrugated portion in cooling and stress the juncture of said edge portion and said corrugated portion due to the d fferential cooling bf said edge portion and said corrugated portion will thereby be minimized.
  • a cast-metal dipper-front comprising ng a relatively thick edge portion extending crosswise of the dipper-front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, said corrugated portion being substantially continuously corrugated throughout its extent with the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be minimized.
  • a cast-metal dipper-front comprising a relatively thick edge portion extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness and said corrugations be-' ing substantially continuously curved throughout the extent of said corrugated portion and extending lengthwise of the dipper front whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be minimized.
  • a cast-metal dipper-front comprising relatively thick opposite edge portions extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, the corrugations of said corrugated portion extending lengthwise of the dipper front and of such form that they will buckle, during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling, whereby stress at the junctures of said edge portions and said corrugated portion due to the differential cooling of said edge portions and said corrugated portion will be minimized.
  • a cast-metal dipper-front comprising relatively thick opposite edge portions extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness and the corrugations of said corrugated portion extending lengthwise of the dipper front and of such form that they will buckle, during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling, Whereby stress at the junctures of said edge portions and said corrugated portion due to the diiferential cooling of said edge portions and said corrugated portion will be minimized.
  • a cast-metal dipper-front comprising relatively thick opposite edge portions ex tending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, said corrugated portion being substantially continuously corrugated throughout its extent, the corrugations of said corrugated portion eX- teuding lengthwise of the dipper front Whereby said corrugated portion will buckle du ing the contraction of said relatively thick edge portions relative to said corrugated portion in cooling and stress at the juncture of said edge portions and said corrugated portion due to the difierential cooling of said edge portions and said corrugated portion will thereby be minimized.
  • a cast-metal dipper-front comprising relatively thick opposite edge portions eX- tending crosswise of the dipper front, and a corrugated portion cast integrally With said edge portions and extending from the latter and crosswise of the dipper front, the corrugations of said corrugated portion being substantially continuously curved throughout the extent of said corrugated portion and extending lengthwise of the dipper front Whereby said corrugated portion Will buckle during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling and stress at the juncture of said edge portions and said corrugated portion due to the differential cooling of said edge portions and said corrugated portion will thereby be minimized.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Continuous Casting (AREA)

Description

June 18, 1929. o. w. ANDERSEN 1,717,907
DIPPER FRONT Filed 001;. 27, 1927 |l@ O o 0 o V'o b 1 Pk I Patented June 18, 1929.
UNITED STATES PATENT OFFICE.
OSCAR VJ. ANDERSEN, 0F OAK PAR-K, ILLINOIS, ASSIGNOR TO PETTIBONE MULLIKEN COMPANY, A CORPORATION OF NEW YORK.
DIPPER FRONT.
Application filed October 27, 1927. Serial No. 229,249.
My invention relates to front, cast metal portions of clippers or buckets for use in excavating, dredging, or similar work.
One of my objects is to reduce the weight and cost of construction of such fronts particularly when formed of manganese steel, without sacrificing strength of the structure, thereby permitting the buckets to be made of lighter weight with the advantage of reduction in cost of construction and operation and increase in eliiciency in the use of the bucket.
Another object. is to provide a construction of dipper front by which the molding thereof may be facilitated, improved castings produced and danger of fracture of the metal in cooling, minimized.
Referring to the accompanying drawings:
Figure 1 is a view in side elevation of a dipper front constructed in accordance with my invention. Figure 2 is a plan sectional view of the front taken at the line 2 on Fig. 1 and viewed in the direction of the arrow; and Figure 8, a view in vertical sectional. elevation of the front, the section being taken at the line 3 on Fig. 2 and viewed in the direction of the arrow.
1 have illustrated my invention as embodied in a dipper front of a common and wellknown form for assembly with the rear wall and side wall forming portion of the bucket, though without any intention of limiting my invention to such form of front.
he front shown which is of general curved shape in plan is provided at opposite sides, adjacent its upper edge, with rearwardly extending plate-like portions 4- containing openings 5 (the opening in one only of the plate portions 4 being shown) for receiving the bail pivots, the side portions of the front being represented as containing series of rivet-receiving holes 6 at which the front would be connected with the rear wall and side wall forming portion of the bucket.
The particular illustrated construction of front is formed to provide along its upper edge a lip portion '1' which is customarily equipped with dipper teeth (not shown) secured thereto in any desired manner. The main portion of the dipper front below the lip is of corrugated form with the corrugations extending lengthwise of the front as shown, the lower edge portion of the dipper front. and along which the corrugations referred to extend to the extreme bottom of the front, being thickened as represented at 8. The corrugated portion of the front, at any given plan cross section thereof is of uniform tlnckness and of the same thickness at any given plan cross section except at the lower thickened part 8 of the front which, while of uniform thickness at any given plan cross section therethrough, is of greater thickness than the corrugated portion above it.
The forming of the dipper front with the corrugated portion as described is of advantage not only because the corrugations afford great stifiness to the structure permitting the front to be formed much thinner than in the case of a plain front andconsequently lightening the weight of the structure with the manifest advantage, but also because the casting of such a front, as compared with the casting of fronts of ribbed form of a non-uniform cross sectional thickness, is facilitated and danger of fracturing the metal in cooling, which is very apt to occur in such ribbed constructions, is minimized.
In this connection it will be noted that the connection between the relatively thin corrugated portion and the relatively thick adjacent portion of the front is along an undulating line whereby the corrugated portion buckles in the subsequent cooling of the relatively thick portion, in casting, thereby greatly reducing the stresses created in the metal at the juncture of these portions compared with the stresses produced in structures which present straight-line junctures or the equivalents thereof between the relatively thin and the relatively thick portions thereof, the greatest reduction of stresses be-- ing effected where the metal of the corrugated portion is of substantially uniform thickness and the corrugations are continuous and of curved form as shown.
While I have illustrated and described a particular embodiment of my invention, I do not wish to be understood as intending to limit it thereto as the same may be variously modified and altered without departing from the spirit of my invention.
VJ hat I claim as new, and desire to secure by Letters Patent, is:
1. A cast-metal clipper-front comprising a relatively thick edge portion extending cross wise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, the corrugations tion and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness, said corrugations being of such form thatthey will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling whereby stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will be miniinized.
3. A cast-metal dipper-front comprising a relatively thick edge portionextending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, said corrugated p'or tion being substantially continuously corrugated throughout its extent the corrugations of said corrugated portions extending lengthwise of the dipper front whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion rel- .ative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be min- 7 imizedi tively thick edge portion relative to said corrugated portion in cooling and stress the juncture of said edge portion and said corrugated portion due to the d fferential cooling bf said edge portion and said corrugated portion will thereby be minimized.
5. A cast-metal dipper-front compris ng a relatively thick edge portion extending crosswise of the dipper-front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, said corrugated portion being substantially continuously corrugated throughout its extent with the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be minimized.
6. A cast-metal dipper-front comprising a relatively thick edge portion extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portion and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness and said corrugations be-' ing substantially continuously curved throughout the extent of said corrugated portion and extending lengthwise of the dipper front whereby said corrugated portion will buckle during the contraction of said relatively thick edge portion relative to said corrugated portion in cooling and stress at the juncture of said edge portion and said corrugated portion due to the differential cooling of said edge portion and said corrugated portion will thereby be minimized.
7. A cast-metal dipper-front comprising relatively thick opposite edge portions extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, the corrugations of said corrugated portion extending lengthwise of the dipper front and of such form that they will buckle, during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling, whereby stress at the junctures of said edge portions and said corrugated portion due to the differential cooling of said edge portions and said corrugated portion will be minimized.
8. A cast-metal dipper-front comprising relatively thick opposite edge portions extending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, the metal of said corrugated portion at any given plan cross section thereof being of substantially uniform thickness and the corrugations of said corrugated portion extending lengthwise of the dipper front and of such form that they will buckle, during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling, Whereby stress at the junctures of said edge portions and said corrugated portion due to the diiferential cooling of said edge portions and said corrugated portion will be minimized.
9. A cast-metal dipper-front comprising relatively thick opposite edge portions ex tending crosswise of the dipper front, and a corrugated portion cast integrally with said edge portions and extending from the latter and crosswise of the dipper front, said corrugated portion being substantially continuously corrugated throughout its extent, the corrugations of said corrugated portion eX- teuding lengthwise of the dipper front Whereby said corrugated portion will buckle du ing the contraction of said relatively thick edge portions relative to said corrugated portion in cooling and stress at the juncture of said edge portions and said corrugated portion due to the difierential cooling of said edge portions and said corrugated portion will thereby be minimized.
10. A cast-metal dipper-front comprising relatively thick opposite edge portions eX- tending crosswise of the dipper front, and a corrugated portion cast integrally With said edge portions and extending from the latter and crosswise of the dipper front, the corrugations of said corrugated portion being substantially continuously curved throughout the extent of said corrugated portion and extending lengthwise of the dipper front Whereby said corrugated portion Will buckle during the contraction of said relatively thick edge portions relative to said corrugated portion in cooling and stress at the juncture of said edge portions and said corrugated portion due to the differential cooling of said edge portions and said corrugated portion will thereby be minimized.
OSCAR W. ANDERSEN.
US229249A 1927-10-27 1927-10-27 Dipper front Expired - Lifetime US1717907A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US229249A US1717907A (en) 1927-10-27 1927-10-27 Dipper front

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US229249A US1717907A (en) 1927-10-27 1927-10-27 Dipper front

Publications (1)

Publication Number Publication Date
US1717907A true US1717907A (en) 1929-06-18

Family

ID=22860418

Family Applications (1)

Application Number Title Priority Date Filing Date
US229249A Expired - Lifetime US1717907A (en) 1927-10-27 1927-10-27 Dipper front

Country Status (1)

Country Link
US (1) US1717907A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050178030A1 (en) * 2004-01-30 2005-08-18 Rene Doucette Ditch digging bucket
WO2015198248A1 (en) 2014-06-26 2015-12-30 Ansar Diseño Limitada A bucket for a rope shovel

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050178030A1 (en) * 2004-01-30 2005-08-18 Rene Doucette Ditch digging bucket
US7191553B2 (en) 2004-01-30 2007-03-20 0728862 B.C. Ltd. Ditch digging bucket
WO2015198248A1 (en) 2014-06-26 2015-12-30 Ansar Diseño Limitada A bucket for a rope shovel
US10329734B2 (en) 2014-06-26 2019-06-25 Ansar Diseno Limitada Bucket for a rope shovel

Similar Documents

Publication Publication Date Title
US2689419A (en) Excavating bucket adapter for replaceable tooth points
RU2646260C2 (en) Excavator bucket and earth-moving machine
US1775984A (en) Dipper-tooth structure
US2164988A (en) Clamshell bucket
US3812608A (en) Dipper bucket corner member with integral shroud
US1717907A (en) Dipper front
US3063176A (en) Replaceable ripper tip
US1638099A (en) Endless-chain excavator bucket with digging teeth
US2336729A (en) Excavating implement
US1539863A (en) Excavating dipper
US2949687A (en) Excavating tooth
US1479340A (en) Steam shovel or dredge dipper
US3736675A (en) Corner construction for loader buckets or the like
US1031138A (en) Cast-metal dipper-body.
US2263215A (en) Dipper tooth
US1843205A (en) Intertooth scraper for excavating implements
US3107445A (en) Power shovel dipper
US1979738A (en) Drag line bucket
US2211786A (en) Dipper lip and associated teeth
US1507697A (en) Dipper
US1921491A (en) Power shovel dipper
US1668166A (en) One-piece drag-line bucket
US1914104A (en) Dipper construction
US1503866A (en) Toothed cutter lip
US1574444A (en) Lip and teeth for excavating buckets