US1869989A - Adjustment means for bucket lines - Google Patents

Adjustment means for bucket lines Download PDF

Info

Publication number
US1869989A
US1869989A US496900A US49690030A US1869989A US 1869989 A US1869989 A US 1869989A US 496900 A US496900 A US 496900A US 49690030 A US49690030 A US 49690030A US 1869989 A US1869989 A US 1869989A
Authority
US
United States
Prior art keywords
bucket
pin
scoop
line
pivoted
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
US496900A
Inventor
Venable William Mayo
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.)
BLAWKNOX Co
Original Assignee
BLAWKNOX Co
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 BLAWKNOX Co filed Critical BLAWKNOX Co
Priority to US496900A priority Critical patent/US1869989A/en
Application granted granted Critical
Publication of US1869989A publication Critical patent/US1869989A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66CCRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
    • B66C3/00Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith and intended primarily for transmitting lifting forces to loose materials; Grabs
    • B66C3/06Grabs actuated by a single rope or chain

Definitions

  • the present invention relates to an improved means for securing the dead end of a bucket line to the bucket structure and is particularly concerned with the provision of 5 means for adjusting the end of the line to of shock when the bucket opens are largely" suit the conditions imposed by the size and weight of the bucket and the character of the material in which it is operating.
  • the invention is especially useful in connection with what has now become well known in the art as the single line.
  • bucket namely, that type of bucket in which the operations of raising and lowering the bucket and of 315 opening and closing the scoop members are influenced by variations in the point at which the dead end of the line is connected to the scoop. 7
  • the proper point to which the line should be attached not only because the center of gravity of the bucket cannot always be definitely pre determined, but also because thecharacter of the material for whichthe bucket is to be used will have a bearingupon this adjustment.
  • the principal object of my invention can be said to reside in the provision of improved means for conveniently and accurately adjusting the position of the dead end pin over as wide a range as is practicable so that all variations incident to manufacture may be compensated for, and further so that the bucket after manu facture can be adapted to handle materials of widely differing characteristics.
  • Fig. 1 is aside elevation of a single line bucket embodying my improvements with the bucket scoops practically wide open.
  • Fig. 2 is a section through the back of a scoop showing in side elevation upon an enlarged scale certain portions of my improved apparatus
  • Fig. 3 isan end elevation of Fig. 2, taken from the left hand side of the figure.
  • the bucket comprises the scoops 4; and 5 pivoted together upon the pin 6 in the usual way, the upper outer edges of the scoops be ing supported by the corner bars 7 and 8 which are pivoted at their lower ends to the scoop members by means of the pins 9 and 10.
  • the upper ends of the corner bars are secured together by means of the corner bar pivot pin 11.
  • the bucket is provided with the customary upper sheave block 12 and the lower sheave block 13, between which is reeved the lifting and operating cable 14.
  • the lower sheave block 13 is secured to the free end of the locking link 15 which has its other end pivoted at 16 to the free end of a curved supporting link 17. Motion of the sheave block 13 is guided by the radius rod 18.
  • the end of the line 14 is fastened in any suitable manner to the yoke-shaped securing member 19, in the spaced arms 20 of which is mounted the pivot pin 21.
  • the member 19 is supported by a pair of arms which are individually adjustable as to length and independently pivoted at different points to the scoop member and which are indicated as a whole by the reference characters 22 and 23.
  • the free ends of these members 22 and 23 are articulated together upon the pin 21 in the member 19. It will, therefore, be clear that by adjusting the length of the arms 22, 23, it is possible to vary the location of the pin 21 and consequently the member 19 and the end of the line 14 over a wide range in accordance with the details of construction now to be described.
  • the member 22 comprises an upper nut member 24- pivot-ed to the central portion of the pin 21 between the arms 20 and a lower nut member 25 pivoted upon a pin 26, which latter is carried on the upper outer or back edge of the scoop 5 between the supporting plates 27 and 28.
  • the plate 27 is supported between the angles 29 and 30 attached to the back of the scoop and the plate 28 is secured between the angles 31 and 32 also carried on the back of the scoop, and each plate 27 and 28 is provided with a hub-like projection 33 between. which is located the hub of the nut member 25.
  • a bolt or pin 35 oppositely threaded at its opposing ends is screwed into the adjacent ends of the nut members 24 and 25, lock nuts 36 and 37 being provided to hold the pin in any desired position of adjustment.
  • the construction of the member 23 is very similar, except that the upper nut member 38 is yoke-shaped as shown in Fig. 3 to em brace the member 24 upon the pin 21.
  • the lower nut member 39 is pivoted to the back of the scoop at a point substantially removed from the upper outer edge as shown in Fig. 2, the pin 40 upon which the member swings being mounted between the lower ends of the plates 27 and 28 as shown best in Fig. 3.
  • the nut members 38 and 39 are secured together by means of the pin or bolt 43 also provided with opposing threads at its opposite ends which are adapted to be screwed into the threaded openings in the nut members 38 and 39.
  • Lock nuts 44 and 45 are provided to hold this pin in its various positions of adjustment.
  • the pins 21, 26 and 40 are readily removable and I prefer to make the necessary adjustments by removing the pins 26 and 40, unscrewing any one of the lock washers 36, 37, 44 or 45, and then turning the nut members 25 and 29 until the desired adjustment has been made.
  • rotation of the nut members 25 and 39 will, of course, rotate the pins 35 and 43 in the nut members 24 and 38, but when the nuts 36 and 44 are locked and the nuts 37 and 45 loose, rotation of the members 25 and 39 will, of course, cause them to move up or down upon said pins 35 and 43.v
  • a bucket structure of the class wherein a single operating line has a dead end secured thereto, characterized by the fact that the bucket structure is provided with a pair of swinging arms each of which is adjustable as to length. and the free ends of which are articulated together and further by the fact that the dead end of the line is attached substantially at the point of articulation.
  • Means for adjusting the end of a bucket line including in combination with a scoop member of the bucket. a pair of arms, adjustable as to length and independently pivoted at different points to the scoop member and having their free ends pivoted together.
  • a scoop which includes a pair of threaded take-up members pivoted at different points on the scoop and articulated together approximately at the dead end connection point.
  • Means securing a bucket line to a bucket structure including in combination, a pair of nut members articulated together, a 00- operating pair of nut members separately pivoted at different points to the bucket structure, and a threaded pin connecting each cooperating set of nut members, the end of the line being fastened to said point of articulation and adjustment thereof being effected by screwing said pins into or out of said nut members.
  • Means for adjusting the end of a bucket line including in combination with a scoop member of the bucket, a pair of arms independently pivoted at different points to the scoop member with their free ends articulated together and means for moving the articulated joint.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Shovels (AREA)

Description

Aug. 2, 1932, w. M. VENABLE ADJUSTMENT MEANS FOR BUCKET LINES Filed Nov. 20, 1930 ATTORNEYS Patented Aug. 2, 1932 UiTE' STATES PAT'NT FE EQ KNOX COIKPANY, OF PITTSBURGH, JERSEY PENNSYLVANIA, A CORPORATION OF NEW ADJUSTMENT MEANS FOR BUCKET LINES Application filed. November 20, 1930. Serial No. 496,900.
The present invention relates to an improved means for securing the dead end of a bucket line to the bucket structure and is particularly concerned with the provision of 5 means for adjusting the end of the line to of shock when the bucket opens are largely" suit the conditions imposed by the size and weight of the bucket and the character of the material in which it is operating.
The invention is especially useful in connection with what has now become well known in the art as the single line. bucket, namely, that type of bucket in which the operations of raising and lowering the bucket and of 315 opening and closing the scoop members are influenced by variations in the point at which the dead end of the line is connected to the scoop. 7 During manufacture of the bucket it is not practicable .toexactly determine the proper point to which the line should be attached, not only because the center of gravity of the bucket cannot always be definitely pre determined, but also because thecharacter of the material for whichthe bucket is to be used will have a bearingupon this adjustment.
Furthermore, it is frequently necessary to fur nish a bucket which was originally designed and constructed with plate of a given thickness'and ofa given total weight so as to make it heavier or lighter by altering the thickness of some of the parts, and when this is done it immediately becomes necessary to change the position of the dead end pin. Furthermore, differences in the friction of the vario-uspar'ts during opening and closing of the bucket are also a factor in preventing any absolute predetermination of the exact position for the dead end pin. However, after a bucket has once been built and used for a few weeks. it is not usuallynecessary to change the adjustment thereafter unless the service to which the bucket has been applied is radically changed;
ith the foregoing in mind, the principal object of my invention can be said to reside in the provision of improved means for conveniently and accurately adjusting the position of the dead end pin over as wide a range as is practicable so that all variations incident to manufacture may be compensated for, and further so that the bucket after manu facture can be adapted to handle materials of widely differing characteristics.
In practice a bucket design is made by very carefully figuring the centers of gravity of all of the bucket parts in the various positions they will occupy during the opening and closing of the bucket, and then in graphically locating the approximate position of the dead end pin as closely as it is possible to do so by considering the motion of the center of gravity of the bucket as it opens and the amount of the lifting of the bucket on the closing line due to the motion of the dead end pin. After this point is so located the bucket is designed so that the pin can be adjusted to come at this point or atvarious points in the neighborhood of this point, as may be rendered necessary by slight variations in the weights of the different parts, the degree of friction developed, and in the behaviour of the bucket due to the material being handled. As stated, my invention relates to a means for providing the widest possible variation in adjustment of the pin in order to satisfy this procedure;
The invention is illustrated in a preferred form in the accompanying drawing, where- 1n Fig. 1 is aside elevation of a single line bucket embodying my improvements with the bucket scoops practically wide open.
Fig. 2 is a section through the back of a scoop showing in side elevation upon an enlarged scale certain portions of my improved apparatus, and
Fig. 3 isan end elevation of Fig. 2, taken from the left hand side of the figure.
The bucket comprises the scoops 4; and 5 pivoted together upon the pin 6 in the usual way, the upper outer edges of the scoops be ing supported by the corner bars 7 and 8 which are pivoted at their lower ends to the scoop members by means of the pins 9 and 10. The upper ends of the corner bars are secured together by means of the corner bar pivot pin 11.
The bucket is provided with the customary upper sheave block 12 and the lower sheave block 13, between which is reeved the lifting and operating cable 14. The lower sheave block 13 is secured to the free end of the locking link 15 which has its other end pivoted at 16 to the free end of a curved supporting link 17. Motion of the sheave block 13 is guided by the radius rod 18.
The foregoing represents old and well known construction, the operation of which is quite familiar to those skilled in the art, so that it is believed to be unnecessary to describe it in any greater detail, the present invention being concerned with the means for securing the end of the line 14 in accordance with. the accompanying illustration and the description thereof now to be presented.
The end of the line 14 is fastened in any suitable manner to the yoke-shaped securing member 19, in the spaced arms 20 of which is mounted the pivot pin 21.
The member 19 is supported by a pair of arms which are individually adjustable as to length and independently pivoted at different points to the scoop member and which are indicated as a whole by the reference characters 22 and 23. The free ends of these members 22 and 23 are articulated together upon the pin 21 in the member 19. It will, therefore, be clear that by adjusting the length of the arms 22, 23, it is possible to vary the location of the pin 21 and consequently the member 19 and the end of the line 14 over a wide range in accordance with the details of construction now to be described.
The member 22 comprises an upper nut member 24- pivot-ed to the central portion of the pin 21 between the arms 20 and a lower nut member 25 pivoted upon a pin 26, which latter is carried on the upper outer or back edge of the scoop 5 between the supporting plates 27 and 28. The plate 27 is supported between the angles 29 and 30 attached to the back of the scoop and the plate 28 is secured between the angles 31 and 32 also carried on the back of the scoop, and each plate 27 and 28 is provided with a hub-like projection 33 between. which is located the hub of the nut member 25. A bolt or pin 35 oppositely threaded at its opposing ends is screwed into the adjacent ends of the nut members 24 and 25, lock nuts 36 and 37 being provided to hold the pin in any desired position of adjustment.
The construction of the member 23 is very similar, except that the upper nut member 38 is yoke-shaped as shown in Fig. 3 to em brace the member 24 upon the pin 21.
The lower nut member 39 is pivoted to the back of the scoop at a point substantially removed from the upper outer edge as shown in Fig. 2, the pin 40 upon which the member swings being mounted between the lower ends of the plates 27 and 28 as shown best in Fig. 3. The nut members 38 and 39 are secured together by means of the pin or bolt 43 also provided with opposing threads at its opposite ends which are adapted to be screwed into the threaded openings in the nut members 38 and 39. Lock nuts 44 and 45 are provided to hold this pin in its various positions of adjustment.
The pins 21, 26 and 40 are readily removable and I prefer to make the necessary adjustments by removing the pins 26 and 40, unscrewing any one of the lock washers 36, 37, 44 or 45, and then turning the nut members 25 and 29 until the desired adjustment has been made. When the nuts 37 and 45 are locked rotation of the nut members 25 and 39 will, of course, rotate the pins 35 and 43 in the nut members 24 and 38, but when the nuts 36 and 44 are locked and the nuts 37 and 45 loose, rotation of the members 25 and 39 will, of course, cause them to move up or down upon said pins 35 and 43.v
In this way I have provided for simply and accurately adjusting the location of the dead end pin 21 and consequently of the dead end of the line 14 which is secured to the member 19 carried by the pin 21.
I claim 1. A bucket structure of the class wherein a single operating line has a dead end secured thereto, characterized by the fact that the bucket structure is provided with a pair of swinging arms each of which is adjustable as to length. and the free ends of which are articulated together and further by the fact that the dead end of the line is attached substantially at the point of articulation.
2. Means for adjusting the end of a bucket line including in combination with a scoop member of the bucket. a pair of arms, adjustable as to length and independently pivoted at different points to the scoop member and having their free ends pivoted together.
3. In a single line bucket, means for adjusting the position of the dead end of the line with reference tov a scoop which includes a pair of threaded take-up members pivoted at different points on the scoop and articulated together approximately at the dead end connection point.
4. In a bucket, the combination with an operating line, of a scoop, a take-up member pivoted to the upper outer edge of the scoop, a second take-up member pivoted to the scoop below said first pivot, the free ends of said take-up members being articulated together, and means for securing the end of the line at the point of articulation.
5. Means securing a bucket line to a bucket structure including in combination, a pair of nut members articulated together, a 00- operating pair of nut members separately pivoted at different points to the bucket structure, and a threaded pin connecting each cooperating set of nut members, the end of the line being fastened to said point of articulation and adjustment thereof being effected by screwing said pins into or out of said nut members.
6. Means for adjusting the end of a bucket line including in combination with a scoop member of the bucket, a pair of arms independently pivoted at different points to the scoop member with their free ends articulated together and means for moving the articulated joint.
In testimony whereof I have hereunto signed my name.
WILLIAM MAYO VENABLE.
US496900A 1930-11-20 1930-11-20 Adjustment means for bucket lines Expired - Lifetime US1869989A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US496900A US1869989A (en) 1930-11-20 1930-11-20 Adjustment means for bucket lines

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US496900A US1869989A (en) 1930-11-20 1930-11-20 Adjustment means for bucket lines

Publications (1)

Publication Number Publication Date
US1869989A true US1869989A (en) 1932-08-02

Family

ID=23974658

Family Applications (1)

Application Number Title Priority Date Filing Date
US496900A Expired - Lifetime US1869989A (en) 1930-11-20 1930-11-20 Adjustment means for bucket lines

Country Status (1)

Country Link
US (1) US1869989A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5649729A (en) * 1996-05-29 1997-07-22 Allied Power Products Inc. Single line grab system
US8936426B2 (en) 2011-04-13 2015-01-20 Allied Power Products, Inc. Suspended dumping system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5649729A (en) * 1996-05-29 1997-07-22 Allied Power Products Inc. Single line grab system
US8936426B2 (en) 2011-04-13 2015-01-20 Allied Power Products, Inc. Suspended dumping system

Similar Documents

Publication Publication Date Title
US4844292A (en) Mechanism for actuating an opening and shut-off valve
US1869989A (en) Adjustment means for bucket lines
US2352017A (en) Grab for hoisting loads
US2112349A (en) Adjustable connection for tool heads and operating handles
US2748510A (en) Grab bucket
US1898453A (en) Boom feet for excavators
CH149635A (en) Blind arm.
US1748586A (en) Clam-shell bucket
US2422523A (en) Bucket locking means
US1746776A (en) Measuring apparatus
DE563248C (en) Swing excavator with swiveling conveyor belt carrier
US1566435A (en) Brickmaking machine
US1614980A (en) Distributing bucket for concrete pavers
US1566386A (en) Supporting mast for concrete chutes
US1847462A (en) Transmission line support
DE575437C (en) Table in connection with an ironing board
DE750362C (en) Device for supporting the bottom flaps of foundry shaft ovens
AT115449B (en) Self-gripper, especially for scrap iron, ore, etc. like
DE412481C (en) Self-discharger
US1193706A (en) Beet j
DE481068C (en) Contact wire suspension for electric railways
US1808800A (en) Bucket construction
US1786265A (en) Gate bolt
DE452531C (en) Automatic gripper for single loads
US1482116A (en) Grab