Boltless holding clamp for earth working cutting teeth

US 5,027,535 A
Filed: 10/09/1990
Issued: 07/02/1991
Est. Priority Date: 10/09/1990
Status: Expired due to Fees

First Claim

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1. A boltless holding clamp adapted for coupling locking grooves of a shank member of an earth working machine, said clamp developing a shank-to-clamp wedging force when positioned in clamping engagement and comprising:

A. a U-shaped body of material having a predetermined modulus of elasticity for providing a resilient holding force and being adapted for translating substantially all of said shank-to-clamp wedging force to a clamp-to-tooth and tooth-to-shank frictional contact force for holding a cutting tooth, said U-shaped body including;

i. a pair of appending flange means for engaging said locking grooves of said shank member and for defining a T-shaped receiving channel for receiving a portion of said shank member between said pair of appending flange means,ii. said flange means further including an inclined bearing surface for bearing against the locking grooves of said shank when axially positioned onto said shank, andiii. said U-shaped body and said shank member further defining a second receiving channel means of uniform transverse cross section for receiving a cutting tooth in axial alignment within said second receiving channel means wherein said tooth also has a uniform transverse cross section, said second receiving channel means further including friction surface means for bearing against said cutting tooth when positioned in said second receiving channel means in clamping engagement and a pair of side walls for restraining lateral displacement of said tooth when positioned in said receiving channel means.

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Abstract

A boltless U-shaped holding clamp for wedgedly clamping cutting teeth to scarifier shanks of earth moving equipment. The clamp includes a first receiving channel having inclined bearing surfaces for engaging locking grooves of the snout of the scarifier shank, and a second receiving channel defined by a flat portion of the shank and the U-shaped member to receive an elongated cutting tooth of constant transverse cross section. The U-shaped clamp member is formed of a material having a certain modulus of elasticity to provide a resilient wedging force between the clamp and shank so as to absorb impact and vibrational forces applied to the tooth under load conditions, while the tooth material is a substantially hardened material for providing good wear resistance. The clamp is designed to translate substantially all of the clamp-to-shank wedging force to a frictional contact force between the tooth and the clamp, which in turn, develops a frictional contact force between the tooth and the shank. The clamp-to-tooth frictional contact force exceeds the tooth-to-shank frictional force whereby to facilitate greater wedging engagement of the clamp when axial loads are applied to the tooth. Greater clamp-to-tooth frictional contact can be attained by providing a tooth which is wider than the thickness of the shank. A worn tooth may be extended by being adjustably clamped against the shank thereby providing greater consumption of the tooth material, or alternatively, by placing abutments and/or spacers in the receiving channel of the clamp to extend the tooth.

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33 Claims

1. A boltless holding clamp adapted for coupling locking grooves of a shank member of an earth working machine, said clamp developing a shank-to-clamp wedging force when positioned in clamping engagement and comprising:
- A. a U-shaped body of material having a predetermined modulus of elasticity for providing a resilient holding force and being adapted for translating substantially all of said shank-to-clamp wedging force to a clamp-to-tooth and tooth-to-shank frictional contact force for holding a cutting tooth, said U-shaped body including;
  
  i. a pair of appending flange means for engaging said locking grooves of said shank member and for defining a T-shaped receiving channel for receiving a portion of said shank member between said pair of appending flange means,ii. said flange means further including an inclined bearing surface for bearing against the locking grooves of said shank when axially positioned onto said shank, andiii. said U-shaped body and said shank member further defining a second receiving channel means of uniform transverse cross section for receiving a cutting tooth in axial alignment within said second receiving channel means wherein said tooth also has a uniform transverse cross section, said second receiving channel means further including friction surface means for bearing against said cutting tooth when positioned in said second receiving channel means in clamping engagement and a pair of side walls for restraining lateral displacement of said tooth when positioned in said receiving channel means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. A holding clamp as recited in claim 1 wherein a clamp-to-tooth frictional surface area of said second receiving channel means provides sufficient frictional contact force when in clamping engagement to drive said clamp into further axial clamping engagement upon application of axial loads to said tooth during cutting or digging operations.
  - 3. A holding clamp as recited in claim 1 having a clamp-to-tooth frictional force which exceeds a tooth-to-shank frictional force when engaged in clamping relation thereby to assure increased wedging engagement upon application of axial loading forces to said cutting tooth.
  - 4. A holding clamp as recited in claim 1 wherein the width of said second receiving channel means for said cutting tooth is greater than the thickness of said shank member whereby to provide a greater tooth-to-clamp frictional force.
  - 5. A holding clamp as recited in claim 1 wherein said U-shaped body is formed of a ductile material to provide a resilient clamp-to-shank wedging force.
  - 6. A cutting tooth for use with the holding clamp as recited in claim 1 comprising a hardened, wear-resistant material of constant cross section complementary to and for insertion into the cross section of said second receiving channel means.
  - 7. A cutting tooth for use with the holding clamp as recited in claim 4 comprising a hardened, wear-resistant material of constant cross section complementary to and for insertion into the cross section of said second receiving channel means.
  - 8. A cutting tooth for use with the holding clamp recited in claim 5 comprising a hardened, wear-resistant material of constant cross section complementary to and for insertion into the cross section of said second receiving channel means.
  - 9. A holding clamp as recited in claim 2 wherein at least a portion of the internal surface of said second receiving channel means for receiving said tooth is treated to increase its frictional properties.
  - 10. A holding claim as recited in claim 1 wherein at least a portion the second receiving channel means for receiving said tooth is structurally configured to resiliently bear against said tooth when engaged in clamping relation whereby to provide extended resiliency in clamping force to absorb greater vibrational forces applied against said tooth.
  - 11. A holding clamp as recited in claim 1 wherein said U-shaped body includes stop means in an aft portion thereof for abutting against a tooth when positioned in said receiving channel means.
  - 12. A holding clamp as recited in claim 11 further including spacer means for being placed in said receiving channel means aft of said tooth for providing adjustment means for said tooth.
  - 13. A holding clamp as recited in claim 12 wherein said spacer means has a lesser cross sectional area than said tooth adapted for insertion into said receiving channel means.

14. In combination, a cutting tooth formed of a hardened material of constant cross section and including a cutting point at one end thereof, and a boltless holding clamp adapted for coupling locking grooves of a standard shank member of an earth working machine, said clamp developing a shank-to-clamp wedging force when positioned in clamping engagement and wherein said clamp comprises:
- A. a U-shaped body of material having a predetermined stress-strain characteristic for providing a resilient holding force and being adapted for translating substantially all of said shank-to-clamp wedging force to a clamp-to-tooth and tooth-to-shank frictional contact force for holding said cutting tooth, said U-shaped body including;
  
  i. a pair of appending flange means for engaging said locking grooves of said shank member and for defining a first receiving channel for receiving a portion of said shank member between said pair of appending flange means,ii. said flange means further including an inclined bearing surface for bearing against the locking grooves of said shank when axially positioned onto said shank, andiii. said U-shaped body and said shank member further defining a second receiving channel means of uniform cross section for receiving said cutting tooth also of uniform cross section in axial alignment within said second receiving channel means, said second receiving channel means further including friction surface means for bearing against said cutting tooth when positioned in said second receiving channel means in clamping engagement and a pair of side walls for restraining lateral displacement of said tooth when positioned in said receiving channel means.

15. A boltless holding clamp adapted for coupling locking grooves of a shank member of an earth working machine, said clamp developing a shank-to-clamp wedging force when positioned in clamping engagement and comprising:
- A. a U-shaped body of material having a predetermined stress-strain characteristic for providing a resilient holding force and being adapted for translating substantially all of said shank-to-clamp wedging force to a clamp-to-tooth and tooth-to-shank frictional contact force for holding a cutting tooth, said U-shaped body including;
  
  i. a pair of appending flange means for engaging said locking grooves of said shank member and for defining a first receiving channel for receiving a portion of said shank member between said pair of appending flange means,ii said flange means further including an inclined bearing surface for bearing against the locking grooves of said shank when axially positioned onto said shank, andiii. said U-shaped body and said shank member further defining a second receiving channel means of uniform cross section for receiving a cutting tooth also of uniform cross section in axial alignment within said second receiving channel means, said second receiving channel means further including friction surface means for bearing against said cutting tooth when positioned in said second receiving channel means in clamping engagement and a pair of side walls for restraining lateral displacement of said tooth when positioned in said receiving channel means.

16. A boltless cutting tooth assembly for use in an earth working machine having a digging member for providing adjustable clamping of a cutting tooth, said assembly comprising:
- A. a shank connected to the digging member, said shank including at least one locking groove providing an inclined wedge-locking bearing surface;
  
  B. a U-shaped holding clamp which couples the tooth to said shank, said clamp including;
  
  i. a receiving channel of uniform cross section for supporting said tooth in axial alignment, said receiving channel including;
  
  a. a friction surface which bears against a flat surface of said tooth when engaged in said receiving channel to define a clamp-to-tooth frictional contact force,b. side walls for guiding and preventing lateral displacement of said tooth in said receiving channel,ii. said U-shaped holding clamp having appending flanges which include a bearing surface to engage locking grooves of said shank and for translating substantially all of said wedging force to said clamp-to-tooth frictional contact force whereby to prevent vertical displacement of said tooth and holder when clamped together, said clamp comprising a ductile material adapted for absorbing at least a portion of the wedging force when placed in wedging engagement with said shank whereby to reduce loosening of the tooth during vibrational loading conditions, andC. said tooth comprising an elongated, hardened bar stock material of constant cross section and including a first bearing surface which bears against the friction surface of the clamp and a second bearing surface which bears against said shank when held in clamping relationship.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. A boltless cutting tooth assembly as recited in claim 16 wherein the tooth-to-clamp frictional contact force exceeds the tooth-to-shank frictional contact force whereby axial loads upon the tooth act first to drive the clamp into greater clamping relation before the tooth axially slides upon said shank.
  - 18. A boltless cutting tooth assembly as recited in claim 16 wherein the width of the cutting tooth is greater than the thickness of said shank whereby to provide greater tooth-to-clamp frictional contact.
  - 19. A boltless cutting tooth assembly as recited in claim 16 wherein said cutting tooth comprises a hardened wear-resistant material having a rectangular cross sectional area.
  - 20. A boltless cutting tooth assembly as recited in claim 16, wherein the holding clamp further comprises at least one abutment means extending into a rear portion of the receiving channel to limit axial displacement of the tooth in the channel.
  - 21. A boltless cutting tooth assembly as recited in claim 20, further comprising:
    - a spacer block means inserted between the abutment means and the tooth to axially extend the tooth from the holding clamp by a length of the spacer block means, the cross sectional area of the spacer block means being thinner and narrower than the cross sectional area of the cutting tooth so as not to interfere with the clamping of the cutting tooth to the shank during clamping engagement.

22. A boltless holding clamp for frictionally clamping a cutting tooth including a portion of having a constant transverse cross section to a shank of a digging member of an earth working machine, said clamp comprising:
- a U-shaped body of material having appending flange means for interlocking with locking grooves of said shank, said clamp including a receiving means for defining a channel of constant transverse cross section for receiving said tooth at adjustable axial positions therein, said clamp further including means for self-tightening said tooth against said shank in response to axial load forces applied to said tooth.
- View Dependent Claims (23, 24, 25, 32, 33)
- - 23. The invention as recited in claim 22 wherein said means for self-tightening comprises differential friction means between a tooth-to-clamp interface and a tooth-to-shank interface.
  - 24. The invention as recited in claim 22 wherein said means for self-tightening comprises stopper means attached to said clamp for engaging said tooth during axial working loads applied to said tooth for driving said clamp into further clamping engagement with said shank.
  - 25. A cutting tooth of constant transverse cross section for use with the invention recited in claim 22 wherein said tooth comprises a hardened, wear-resistant material of constant transverse cross section.
  - 32. The invention as recited in claim 24 further including spacer block means for providing adjustability of the axial position of said tooth.
  - 33. A cutting tooth for use with the invention recited in claim 22 wherein said cutting tooth comprises a hardened, wear-resistant material formed from bar stock material.

26. A boltless holding clamp for clamping a cutting tooth of constant transverse cross section to a shank of a digging member of an earth working machine comprising:
- a U-shaped body of material having appending flanges for interlocking with locking grooves of said shank, said clamp including a receiving channel of constant transverse cross section for receiving said tooth at adjustable axial positions therein, said clamp further including means for self-tightening said tooth against said shank in response to axial load forces applied to said tooth, said clamp further including resiliency means for absorbing vibrations in clamping force between said tooth and shank.
- View Dependent Claims (27, 28, 29, 30, 31)
- - 27. The invention as recited in claim 26 wherein said resiliency means comprises a predetermined stress-strain characteristic of said clamp material.
  - 28. The invention as recited in claim 26 wherein said resiliency means comprises a spring effect established by the physical structure of said U-shaped body.
  - 29. A cutting tooth for use with the invention recited in claim 26 wherein said cutting tooth comprises a hardened, wear-resistant material formed from bar stock material.
  - 30. The invention as recited in claim 26 wherein said receiving channel includes stopper block means for engaging said tooth during axial working loads applied to said tooth for driving said clamp into further clamping engagement with said shank.
  - 31. The invention as recited in claim 30 further including spacer block means for providing adjustability of the axial position of said tooth.

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Current Assignee
Am Logistics Corporation
Original Assignee
Am Logistics Corporation
Inventors
Maguina-Larco, Alfredo
Primary Examiner(s)
Taylor, Dennis L.
Assistant Examiner(s)
MCBEE, J

Application Number

US07/594,545
Time in Patent Office

266 Days
Field of Search

37/141 T, 37/142 R, 37/141 R, 37/142 A
US Class Current

37/455
CPC Class Codes

E02F 9/2825 using adapters

Boltless holding clamp for earth working cutting teeth

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

30 Citations

33 Claims

Specification

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Boltless holding clamp for earth working cutting teeth

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

30 Citations

33 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links