US1821499A - Dipper door latch release - Google Patents

Dipper door latch release Download PDF

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US1821499A
US1821499A US456479D US45647930D US1821499A US 1821499 A US1821499 A US 1821499A US 456479 D US456479 D US 456479D US 45647930 D US45647930 D US 45647930D US 1821499 A US1821499 A US 1821499A
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pinion
shaft
drum
secured
spider
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US456479D
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Lagar R Culver
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ELLA F PRILLAMAN
JOHN W PRILLAMAN
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ELLA F PRILLAMAN
JOHN W PRILLAMAN
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    • 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
    • E02F3/407Dippers; Buckets ; Grab devices, e.g. manufacturing processes for buckets, form, geometry or material of buckets with ejecting or other unloading device
    • E02F3/4075Dump doors; Control thereof

Definitions

  • the main driven gear rotates continuously in one direction caused to travel in a rearward direction T he dipper doonlatch release is operated by a piuion neshing with'the main drlven gear, the rotation of said p nion being trans;
  • shovel is caused to travel in a rearward direction and further, to provide an lmproved form of clutch that effects a driving engage- ,ment between a pinion that is constantly ro' tated by the main drum gear of the shovel and the drum upon which the release cable is wound.
  • a further object of my invention is, to provide an improved form of handle and means for actuating the clutchso as to bring about a driving engagement between the constantly driven pinion and the release cable carrying drum.
  • Fig. 2 is a the center of the release cable actuating mechanism including the constantlydriven pinion, the clutch actuating mechanism and the release cable carrying drum. 7
  • Fig. 3 is a cross sectional view taken approximatelyjon the line 3-3 of Fig. 2.
  • Fig. 4 is an elevational view partly in the release cable carrying drum when the shovel is reversed or driven in a rearward direction.
  • Fig. 5 is an enlargedside elevational view partly in section of the handle that is utilized for actuating the clutch.
  • Fig. 6 is an edge view of the handle and looking in the direction indicated by the arrow 6 in Fig. 5. 7
  • 10 designates the main drum] gear of aipower shovel which main gear is suitably j ournaled in the gantry frame 11of the shovel and secured to the gantry frame above the main drum gear is a bracket 12 provided with a bearing 13 for a horizontally disposed shaft 14.
  • a pinion 15 that meshes with the teeth of the main drum gear 10 and consequently said pinion is constantly driven by said main gear whilethe shovel is in operation.
  • a drum 16 Secured on the end of the shaft 14, opposite the end on which pinion 15 is mounted, is a drum 16, upon whichis adapted to wind :1 cable 17 and which cable extends from the lower side ofsaid drum over suitably located pulleys to the latch 18 'of the door of dipper 19.
  • a clutch facing 23 Positioned adjacent to the outer portion of section taken lengthwise through 7 section looking in the direction indicated by disc 22, is a clutch facing 23 that is adapted to frictionally engage the web of pinion 15 and effect a driving engagement therewith.
  • ring flange 24 Formed integral with the inner face of pinion 15 is a ring flange 24, the inner face of which is transversely corrugated, as designated by 25.
  • each pin 26 Seated in bosses 26 on the outer portion of spider 21, are pins 26 that project toward disc 22 beneath flange 24 and pivotally mounted on the projecting portion of each pin 26 is an arcuate shoe 27, the outer face of which is corrugated and adapted to engage the corrugated face 25 of flange 24.
  • pins 28 Seated in spider 21 at points between the" pins 26 and projecting toward disc 22 are pins 28 that are secured to said spider in any suitable manner, preferably by means of pins or keys and jouinaled on the projecting ends of these pins, immediately beneath the intermediate portions of the brake shoes 27, are heads 29 with which are formed short arms or fingers 29 that project towardthe shaft 14.
  • the outer portions of the heads 29 are provided with notches 30 for the accommodation of webs 32 that project from the rear faces of theshoes 27-and, at the ends of the notches 30, the heads 29 bear-against the ad-v jacent edges .30? of the flanges 32, or'those edges that are immediately adjacentto the pins 28 (see Fig. 3).
  • pins 31 Seated in and projecting outwardly fr'o'm the hub portion of-disc 22, between the arms of the spider 21, are pins 31 that are adapted to bear against the arms 29 that project inwardly from theheads 29.
  • each head 29 Projecting laterally from each head 29 is a perforated ear 33 and secured thereto is one end of a retra'ctile spring 34, the opposite end thereof being secured to the next adjacent one ofthe brake shoes 27 adjacent to the pin 28 that is associated therewith.
  • an anti-friction thrust bearing 35 Arranged to slide freely on hearing 13, is an anti-friction thrust bearing 35 that bears directly against the outer ends of the pins 31 and bearing against the outer face of this thrust bearing to the sides of shaft 14 is the intermediate portion of a yoke 36, the upper end of which is fulcrumed on the outer ends of a pin or stud 37 that projects from bracket 12. j
  • lugs 38 Depending from bearing 13 are lugs 38, to which is fulcrumed a bell crank 39 and interposed between the lower end of yoke .36 and the short arm of this bell crank is an expansive spring 40.
  • a flexible member 41 Secured to the end of longarm bell crank 39 is one end of a flexible member 41, preferably a wire that extends through a flexible tubular sheath 42, the ends of which are suitably supported.
  • an upwardly projecting hand lever 43 that functions as one of the control levers for the shovel and secured on said lever is a bracket 44 to which is connected one end of the flexible sheath 42.
  • a short lever 45 to one end of which is secured one end of the flexible member 41 and pivotally secured to the opposite end of lever 45 is the lower end of rod 46 that extends upwardly directly in front of lever 43 and the upper end of said rod is secured to a hollow member 47 that is mounted for vertical movement on the upper end of lever 43 (see Figs. 5 and 6).
  • a set screw 48 seated in bracket 44 limits the swinging movement of lever 45 in one direction.
  • the parts 'ust described provide means for drawing the flexible member 41 through the sheath 42 so as to swing bell crank 39 on its fulcrum and thereby cause yoke 36 to bear against thrust bearing 35.
  • bracket 49 Secured on the upper portion of bracket 12 and projecting toward the pinion 15 1s a bracket 49 and pivotally mounted on the outer end of this bracket by means of a. pin 50, the axis of which is parallel with the axis of shaft 14 is a bracket 51 that occupies a position directly over the ring flange 24.
  • bracket 51 Formed on bracket 51 are spaced lugs 52 and arranged for sliding movement therethrough is a rod 53, the inner end of which rides directly on the outer face of ring flange 24. Associated with this rod is an expansive spring 54 that yieldingly resists outward movement of the rod relative to the ring flange.
  • a lever 55 that is provided on its inner end with a head 56 is fulcrumed on a pin 57 that projects laterally from bracket 51 and connected to the rear end of this lever is one end of a retractile spring 58, the opposite end of which is secured to the lower portion of bracket 51.
  • This pivoted spring held lever 55 occupies a plane parallel with the pinion 15 and s ider 21 and it is positioned so that when bracket 51 is swung to a certain position on its axis, the pin 50, the head 56 on said lever will be positioned directly on the path of travel of the lugs on spider 21 in which the pins 26 are seated.
  • the operator of the machine moves the hollow handle 47' downward a short distance on lever 43, thereby swinging lever 45 on its fulcrum and be rotated a short distance until the pins 31 engage the fingers 29 that project inwardly from the heads 29 and as said fingers are swung on their fulcrums, which are the pins 28, the shoe 2'?
  • pinion 15 When the shovel is moved rearwardly in its operation, pinion 15 will be rotated antielockwise and in order to prevent the cable from being unwound from drum 16 during such operation I provide the automatic stop mechanism that includes the finger 53 and lever 55. As soon as the pinion 15 starts rotating in a reverse direction or anti-clockwise, the end of finger53 will frictionally engage the surface of the ring gear :24 with sufficient bearing to be swung into a reverse.
  • the spring 58 is put on for safety in the event that the operator causes'the dipper to move outwardly to such an extentas to overhaul the trip cable, in which event the bosses 26 on the spider will act through lever 55 to overcome the tension of spring 58 so asto permit the cable to pay out.
  • lever and bracket 51 occupy the positions as illustrated in Fig. 3 and at this timethe pinion 15 is rotating reversely or in the direction indicated by the arrow A in Fig; 3.
  • the heads 29 will bear on the flanges 32 of the shoes immediately to the sides of the pivot pins 28 and thus each arm and the shoe with which it is associated'will move as one part when swung into engagementv with the 'ring flange and when the pressure of the pins 31 against the arms 29 is relieved the springs.
  • Finger 53 rides light- I to shaft 14) to revolve freely in either direc- 2 tion, being controlled only by the clutch mechanism and the pull on trip cable 17.
  • Lever 55 and rocking member 51 could be made in one piece but forthe fact that there must be some means provided for safety in case the shovel operator shoves out the dipper. In such event the successive tension on cable 17 will cause the spider 21 to overcome the tension on spring 58 and lever 55 will swing so as to permit bosses 26 to pass and 5 thereby allow the cable to unwind as long as there is excessive tension on said cable.
  • a power shovel dipper door latch release the combination with a shaft,- of a pinion loosely mounted on said shaft, which pin- 'ion is in mesh with the main driving gear wheel of the power shovel, a dipper door latch releasing cable carrying drum secured to said shaft, a clutch member secured to the pinion, a cooperating clutch member secured to said shaft, automatically operating means controlled by the rotation of the clutch member that is secured to the pinion for restraining the clutch member that is mounted on the shaft against reverse rotary motion when the main driving gear wheel and pinion are reversely rotated and manually operable means for effecting an engagement of the clutch member on the shaft with the clutch member that is secured to said pinion.
  • a dipper door latch release for power shovels, a shaft, a drum mounted thereon, a cable carried by said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and in mesh with the main drum gear of the power shovel, a ring flange on said pinion, the inner face of which flange is corrugated, a spider secured to the shaft, spring held shoes pivotally mounted on said spider and adapted to engage the corrugated face of the ring flange, manually operable means for noving the shoes into engagement with said ring flange, aclutch adapted to provide a driving engagement between the spider and pinion and automatical- 1y acting means for holding the clutch against reverse rotation when said pinion is reversely rotated.
  • a dipper door latch release for power shovels, a journaled shaft, a drum secured thereto, a cable secured to said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and meshing with the main drum gear of the power shovel, a clutch loosely mounted on the shaft and adapted to engage said pinion, manually operable means for effecting a driving engagement between said clutch and pinion, a spidersecured to the shaft, means actuated by the rotation of the disc effecting a driving engagement between the spider and pinion and automatically acting means for effecting a disengagement of the driving connection between the spider and pinion when said pinion is reversely rotated.
  • a dipper door latch release for power shovels, a journaled shaft, a drum secured thereto, a cable carried by said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and in engagement with the main drum gear of the power shovel, a ring'flange on said pinion, the inner face of which flange is corrugated, a spider secured to the shaft, spring held shoes pivotally mounted on said spider and provided'with corrugated faces that are adapted to engage the corrugated face on the ring flange, a manually operable clutch for eflecting a drivingengagement between the spider and pinion and means actuated by said pinion and the flange carried thereby for automatically eflecting a disengagement of the driving connection between said spider and pinion.
  • a power dipper door latch trip the combination with a shaft of a. pinion mounted for rotation on said shaft, which pinion is in engagement with a gear of the power shovel with which the dipper door latch trip is associated, a dipper door latch releasing cable carrying drum secured to said shaft, a spider secured to said shaft, friction shoes fulcrumed on said spider, cams fulcrumed on said spider, a friction disc slidably mounted on the hub of said spider and the hub of said pinion, a clutch facing arranged between the face of the friction disc and the web of said pinion, thrust pins secured to said friction disc, a fulcrumed yoke, a thrust collar mounted between the ends of said thrust pins and saidyoke, a bellcrank lever mounted adjacent to the free end of the yoke, an expansion spring interposed between said yoke and bell-crank lever, a flexible member pivotally connected to said bell-crank lever, a lever fulcrumed on one of the operating levers of the shovel with which
  • a drum on which said trip cable is secured a shaft to which said drum is secured, a spider secured to said shaft, bosses on said spider, a pinion rotatably mounted on said shaft, a ring flange on said pinion, a rocking memher, a spring tension finger carried by said rocking member and bearing on said ring flange, a centrally fulcrumed lever pivoted on said rocking member.
  • a spring for maintaining said lever in position and which lever is arranged so that one end is adapted to move into the path of the bosses on said spider when said rocking member swings on its axis.
  • the combination with the dipper door latch and one of the constantly rotating gears of the shovel, of means for taking up the slack of the dip per door latch tripping cable, comprising a drum on which the trip cable is wound, a shaft to which said drum is secured, a spider secured to said shaft, a pinion rotatably mounted on said shaft, a web between the spokes of the said pinion to provide a fric tion surface, a friction disc slidablymounted on the hubs of said spider and pinion, a clutch facing interposed between said friction disc and said web, thrust pins secured to said friction disc and extending between the spokes of said spider, an adjustably mounted pivoted yoke, a thrust bearing disposed between the ends of said thrust pins and yoke, a fulcrumed bell-crank lever having one arm in contact with said yoke, a spring interposed between said yoke and arm, a control wire pivotally connected to the other arm of said bell-crank,

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Mechanical Operated Clutches (AREA)

Description

Sept. 1, 1931. L. R. CULVER 1,821,499
DIPBER DOOR LATCH RELEASE Filed May 28, 1930 3 Sheets-She et l Sept. 1, 1931. R. CULVER 1,821,499
DIPPER DOOR LATCH RELEASE Filed May 28, 1930 3 Sheets-Sheet 2 R. CULVER DIPPER noon urea RELEASE Filed May 28, 1930 '3 Sheets-Sheet 3 Patented Sept. 1, 1931 UNITED srATEs PATENT OFFICE LAGAR R. (JULY/ER, OF 1108 ANGELES, CALIFORNIA, ASSIGNOR OF ONE-HALF TOJOI-IN W. PRILLAMAIT AND EZRA PRILLAMAN, BOTH F VISTA, CALIFORNIA DIPPER noon LATCH RELEASE Application filed May 28,
holding the dipper door in closed position.
The invention herein disclosed is an improvement on a somewhat similarst-ructure that forms the subject matter ofmy co-pending application for U. S. Letters Patent filed July 16, 1929, Serial No. 378,758.
In certain types of power shovels, the main driven gear rotates continuously in one direction caused to travel in a rearward direction T he dipper doonlatch release is operated by a piuion neshing with'the main drlven gear, the rotation of said p nion being trans;
mitted through a friction clutch, to a drum upon which a cable is wound and the latter extending from said drum to the latch on causes the cable to wind onto said drum, thereby effecting release of the latch.
Further objects of my invention are, to
generally improve upon and simplify the construction of the existing forms of dipper door latch releasing devices, further, to provide relatively simple and efiicient means for automatically stopping rotation of the cable release drum and preventing unwinding of the cable from said drum when the r a: n
shovel is caused to travel in a rearward direction and further, to provide an lmproved form of clutch that effects a driving engage- ,ment between a pinion that is constantly ro' tated by the main drum gear of the shovel and the drum upon which the release cable is wound. V A further object of my invention is, to provide an improved form of handle and means for actuating the clutchso as to bring about a driving engagement between the constantly driven pinion and the release cable carrying drum.
With the foregoing and other objects in view, my-invention consists in certain novel features of construction and arrangement of parts that will hereinafter be more fully described and claimed and illustrated in the accompanying drawings, in which: F 1 is a side elevational View of a power .zzcept whenthe shovels are reversed or 1930. Seria1No. 456,479}.
shovel and showing my improved dipper door latch release in operative posit-ion thereupon.
Fig. 2 is a the center of the release cable actuating mechanism including the constantlydriven pinion, the clutch actuating mechanism and the release cable carrying drum. 7
Fig. 3 is a cross sectional view taken approximatelyjon the line 3-3 of Fig. 2.
Fig. 4 is an elevational view partly in the release cable carrying drum when the shovel is reversed or driven in a rearward direction.
Fig. 5 is an enlargedside elevational view partly in section of the handle that is utilized for actuating the clutch.
Fig. 6 is an edge view of the handle and looking in the direction indicated by the arrow 6 in Fig. 5. 7
Referring by numerals to the accompanying drawings which illustrate a practical embodiment of my invention, 10 designates the main drum] gear of aipower shovel which main gear is suitably j ournaled in the gantry frame 11of the shovel and secured to the gantry frame above the main drum gear is a bracket 12 provided with a bearing 13 for a horizontally disposed shaft 14.
- Loosely mounted on one end of this shaft is a pinion 15 that meshes with the teeth of the main drum gear 10 and consequently said pinion is constantly driven by said main gear whilethe shovel is in operation.
, Secured on the end of the shaft 14, opposite the end on which pinion 15 is mounted, is a drum 16, upon whichis adapted to wind :1 cable 17 and which cable extends from the lower side ofsaid drum over suitably located pulleys to the latch 18 'of the door of dipper 19.
Secured in any suitable manner to shaft 14, adjacent to pinion 15, is the hub portion 20 of a spider 21 and loosely mounted on hub 20 and on the hub of pinion 15 is the hub portion of a disc 22 that functions as a clutch.
Positioned adjacent to the outer portion of section taken lengthwise through 7 section looking in the direction indicated by disc 22, is a clutch facing 23 that is adapted to frictionally engage the web of pinion 15 and effect a driving engagement therewith.
Formed integral with the inner face of pinion 15 is a ring flange 24, the inner face of which is transversely corrugated, as designated by 25.
Seated in bosses 26 on the outer portion of spider 21, are pins 26 that project toward disc 22 beneath flange 24 and pivotally mounted on the projecting portion of each pin 26 is an arcuate shoe 27, the outer face of which is corrugated and adapted to engage the corrugated face 25 of flange 24.
Seated in spider 21 at points between the" pins 26 and projecting toward disc 22 are pins 28 that are secured to said spider in any suitable manner, preferably by means of pins or keys and jouinaled on the projecting ends of these pins, immediately beneath the intermediate portions of the brake shoes 27, are heads 29 with which are formed short arms or fingers 29 that project towardthe shaft 14.
The outer portions of the heads 29 are provided with notches 30 for the accommodation of webs 32 that project from the rear faces of theshoes 27-and, at the ends of the notches 30, the heads 29 bear-against the ad-v jacent edges .30? of the flanges 32, or'those edges that are immediately adjacentto the pins 28 (see Fig. 3).
Seated in and projecting outwardly fr'o'm the hub portion of-disc 22, between the arms of the spider 21, are pins 31 that are adapted to bear against the arms 29 that project inwardly from theheads 29.
Projecting laterally from each head 29 is a perforated ear 33 and secured thereto is one end of a retra'ctile spring 34, the opposite end thereof being secured to the next adjacent one ofthe brake shoes 27 adjacent to the pin 28 that is associated therewith.
Arranged to slide freely on hearing 13, is an anti-friction thrust bearing 35 that bears directly against the outer ends of the pins 31 and bearing against the outer face of this thrust bearing to the sides of shaft 14 is the intermediate portion of a yoke 36, the upper end of which is fulcrumed on the outer ends of a pin or stud 37 that projects from bracket 12. j
Depending from bearing 13 are lugs 38, to which is fulcrumed a bell crank 39 and interposed between the lower end of yoke .36 and the short arm of this bell crank is an expansive spring 40.
Secured to the end of longarm bell crank 39 is one end of a flexible member 41, preferably a wire that extends through a flexible tubular sheath 42, the ends of which are suitably supported.
' Fulcrumed on the frame in the cab of the shovel directly in front of the position occupied by the operator is an upwardly projecting hand lever 43 that functions as one of the control levers for the shovel and secured on said lever is a bracket 44 to which is connected one end of the flexible sheath 42.
Fulcrumed on this bracket is a short lever 45, to one end of which is secured one end of the flexible member 41 and pivotally secured to the opposite end of lever 45 is the lower end of rod 46 that extends upwardly directly in front of lever 43 and the upper end of said rod is secured to a hollow member 47 that is mounted for vertical movement on the upper end of lever 43 (see Figs. 5 and 6).
A set screw 48 seated in bracket 44 limits the swinging movement of lever 45 in one direction.
The parts 'ust described provide means for drawing the flexible member 41 through the sheath 42 so as to swing bell crank 39 on its fulcrum and thereby cause yoke 36 to bear against thrust bearing 35.
Secured on the upper portion of bracket 12 and projecting toward the pinion 15 1s a bracket 49 and pivotally mounted on the outer end of this bracket by means of a. pin 50, the axis of which is parallel with the axis of shaft 14 is a bracket 51 that occupies a position directly over the ring flange 24.
Formed on bracket 51 are spaced lugs 52 and arranged for sliding movement therethrough is a rod 53, the inner end of which rides directly on the outer face of ring flange 24. Associated with this rod is an expansive spring 54 that yieldingly resists outward movement of the rod relative to the ring flange.
A lever 55 that is provided on its inner end with a head 56 is fulcrumed on a pin 57 that projects laterally from bracket 51 and connected to the rear end of this lever is one end of a retractile spring 58, the opposite end of which is secured to the lower portion of bracket 51. This pivoted spring held lever 55 occupies a plane parallel with the pinion 15 and s ider 21 and it is positioned so that when bracket 51 is swung to a certain position on its axis, the pin 50, the head 56 on said lever will be positioned directly on the path of travel of the lugs on spider 21 in which the pins 26 are seated.
In the operation of my improved dipper doorlatch release pinion 15, which is constantly in mesh with the main drum gear operates continuously as said main drum gear is rotated, but the frictional engagement between the pinion and disc 22 is normally insuflicient to impart driving movement to said clutch and the parts actuated thereby including the shaft 14 and drum 16.
To actuate the device and cause the cable 17 to wind onto drum 16 and thereby disengage the dipper door latch, the operator of the machine moves the hollow handle 47' downward a short distance on lever 43, thereby swinging lever 45 on its fulcrum and be rotated a short distance until the pins 31 engage the fingers 29 that project inwardly from the heads 29 and as said fingers are swung on their fulcrums, which are the pins 28, the shoe 2'? will be swung outwardly against the resistance offered by springs 34 so that the corrugated outerfaces of said shoes will engage the correspondingly eorrugated inner face of the ring flange-24, thereby effecting an interlocking engagement between said ring flangeand the spider 21 that carries the shoes and as said splder 1s fixed on shaft 14 the latter will be rotated.
As shaft 14 is thus rotated, the drum 16 carried bysaid shaft will be likewise rotated so as to wind cable 17 thereunto an'd consequently releasing-the dipper door latch As soon as the release of latch has been effected the operator releases pressure on the hollow handle 47 and said handle and the parts associated therewith including flexible member 41 and bell crank .39 will be returned to their normal positions by expansive spring 40 which was slightly compressed as hell Icrank 39 was previously acuated. As soon as pressure on the thrust bearing 35 is relieved the arms 29 will swing back to their normal positions under the influence ofthe retractile springs 34 and as these springs are connected to the shoes 27 the latter will be drawn out of engagement with the ring flange 24, thereby bringing about a disengagement of said shoes with the ring flange and consequently disconnecting spider 21 and the pinion 15.
As the arm that carries the'dipper is again lowered into position to be filled, the dipper door will close by gravity, thereby unwinding a portion of the cable from drum 16.
During the operation of the shovel and while the same is being driven forwardly in its operation, the pinion 15 rotates clockwise or in the direction indicated in the arrow in Fig. 4 and under such conditions the free end of rod 53 rides with comparatively light friction on the surface of the ring flange 24, as seen in Fig. 4.
When the shovel is moved rearwardly in its operation, pinion 15 will be rotated antielockwise and in order to prevent the cable from being unwound from drum 16 during such operation I provide the automatic stop mechanism that includes the finger 53 and lever 55. As soon as the pinion 15 starts rotating in a reverse direction or anti-clockwise, the end of finger53 will frictionally engage the surface of the ring gear :24 with sufficient bearing to be swung into a reverse.
will be swung downwardly so that head 56 on the inner end thereof is positioned directly in the path of travel of the heads on spider 21 that carry the pins. 26 and when one of the lugs on the spider engages head 56, the spider and parts carried thereby will be prevented from further rotating and. consequently the shaft 14 and drum 16 will be held againstreverse rotation which would othewise permit the cable 17 to unwind from the drum.
The spring 58 is put on for safety in the event that the operator causes'the dipper to move outwardly to such an extentas to overhaul the trip cable, in which event the bosses 26 on the spider will act through lever 55 to overcome the tension of spring 58 so asto permit the cable to pay out.
When the shovel is again driven forwardly and'the p1nion 15 rotates in its normal cloc'kwise direction the inner end of rod 53 will frictionally engage the surface of'the ring:
flange 24 and the bracket 51 and partscarried thereby will swing back to their, normal positions as illustrated in Fig. 4.
hen the parts just described have been swung so as to position the end of lever 55 in the path of travel of the lugs on the spider,
said lever and bracket 51 occupy the positions as illustrated in Fig. 3 and at this timethe pinion 15 is rotating reversely or in the direction indicated by the arrow A in Fig; 3.
At the time the pins 31 engage the fingers 29 and move the same so as to bring about an engagement between the shoes 27 and the corrugated inner face of the ring flange 24,
the heads 29 will bear on the flanges 32 of the shoes immediately to the sides of the pivot pins 28 and thus each arm and the shoe with which it is associated'will move as one part when swung into engagementv with the 'ring flange and when the pressure of the pins 31 against the arms 29 is relieved the springs.
34 will withdraw the shoes from engagement with the ring flange. Finger 53 rides light- I to shaft 14) to revolve freely in either direc- 2 tion, being controlled only by the clutch mechanism and the pull on trip cable 17.
When the shovel is reversed the direction of rotation of gear 15 is necessarily reversed and instead of running in a clockwise direction, as illustrated in Fig. 4 it will run counter clockwlse andsuch action would unwind 3l relatively 1 when viewed as illustrated in Fig. 4, finger 53 has shifted from the position it occupies as illustrated in Fig. 4 .(the spring 54 permitting said finger to slide outwardly in its bearing 52 while said finger is shifting its position) thereby allowing head 56 to drop.
into the path of travel of the bosses 26 on spider 21. Such action will hold the spider and drum from turning to unwind cable 17.
Lever 55 and rocking member 51 could be made in one piece but forthe fact that there must be some means provided for safety in case the shovel operator shoves out the dipper. In such event the successive tension on cable 17 will cause the spider 21 to overcome the tension on spring 58 and lever 55 will swing so as to permit bosses 26 to pass and 5 thereby allow the cable to unwind as long as there is excessive tension on said cable.
Thus it will be seen that I have provided siInple, practical and efficient 'means for imparting'pull to the cable that is connected to the dipper door latch of a power shovel and said releasing means having associated therewith automatically acting means that will prevent the large actuating cable from unwinding from its drum when the shovel is moved rearwardly.
It will be understood that minor changes in the size, form and construction of the vari- 40 ous parts of my improved dipper door latch for power shovels maybe made and substituted for those herein shown and described without departing from the spirit of my invention, the scope of which is set forth in the appended claims.
I claim as my invention: 7
In a power shovel dipper door latch release, the combination with a shaft, of a pinion loosely mounted on said shaft, which -pinion is in mesh with the main driving gear wheel of the power shovel, a dipper door.
latch releasing cable carrying drum secured to said shaft, a clutch member secured to the pinion, a cooperating clutch member secured to said shaft and automatically operating means controlled by the rotation of the clutch member that is secured to the pinion for restraining the clutch member that is mounted on the shaft against reverse rotary Gdmotion when the main driving gear wheel and pinion are reversely rotated.
2. In a power shovel dipper door latch release, the combination with a shaft,- of a pinion loosely mounted on said shaft, which pin- 'ion is in mesh with the main driving gear wheel of the power shovel, a dipper door latch releasing cable carrying drum secured to said shaft, a clutch member secured to the pinion, a cooperating clutch member secured to said shaft, automatically operating means controlled by the rotation of the clutch member that is secured to the pinion for restraining the clutch member that is mounted on the shaft against reverse rotary motion when the main driving gear wheel and pinion are reversely rotated and manually operable means for effecting an engagement of the clutch member on the shaft with the clutch member that is secured to said pinion.
3. In a dipper door latch release for power shovels, a shaft, a drum mounted thereon, a cable carried by said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and in mesh with the main drum gear of the power shovel, a ring flange on said pinion, the inner face of which flange is corrugated, a spider secured to the shaft, spring held shoes pivotally mounted on said spider and adapted to engage the corrugated face of the ring flange, manually operable means for noving the shoes into engagement with said ring flange, aclutch adapted to provide a driving engagement between the spider and pinion and automatical- 1y acting means for holding the clutch against reverse rotation when said pinion is reversely rotated.
4. In a dipper door latch release for power shovels, a journaled shaft, a drum secured thereto, a cable secured to said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and meshing with the main drum gear of the power shovel, a clutch loosely mounted on the shaft and adapted to engage said pinion, manually operable means for effecting a driving engagement between said clutch and pinion, a spidersecured to the shaft, means actuated by the rotation of the disc effecting a driving engagement between the spider and pinion and automatically acting means for effecting a disengagement of the driving connection between the spider and pinion when said pinion is reversely rotated.
5. In a dipper door latch release for power shovels, a journaled shaft, a drum secured thereto, a cable carried by said drum and connected to the dipper door latch, a pinion loosely mounted on the shaft and in engagement with the main drum gear of the power shovel, a ring'flange on said pinion, the inner face of which flange is corrugated, a spider secured to the shaft, spring held shoes pivotally mounted on said spider and provided'with corrugated faces that are adapted to engage the corrugated face on the ring flange, a manually operable clutch for eflecting a drivingengagement between the spider and pinion and means actuated by said pinion and the flange carried thereby for automatically eflecting a disengagement of the driving connection between said spider and pinion.
6. In a power dipper door latch trip, the combination with a shaft of a. pinion mounted for rotation on said shaft, which pinion is in engagement with a gear of the power shovel with which the dipper door latch trip is associated, a dipper door latch releasing cable carrying drum secured to said shaft, a spider secured to said shaft, friction shoes fulcrumed on said spider, cams fulcrumed on said spider, a friction disc slidably mounted on the hub of said spider and the hub of said pinion, a clutch facing arranged between the face of the friction disc and the web of said pinion, thrust pins secured to said friction disc, a fulcrumed yoke, a thrust collar mounted between the ends of said thrust pins and saidyoke, a bellcrank lever mounted adjacent to the free end of the yoke, an expansion spring interposed between said yoke and bell-crank lever, a flexible member pivotally connected to said bell-crank lever, a lever fulcrumed on one of the operating levers of the shovel with which the door latch trip is associated, said flexible member being connected to said last mentioned lever, a rod pivotally connected to said last mentioned lever and a thimble connected to said rod and mounted on the upper end of the operating lever upon which said fulcrumed lever is mounted.
7. In a power shovel, the combination with its dipper door latch and one of its constantly rotating gears, of means for maintaining the trip cable from unwinding when said constantly rotating gear is reversed, a drum on which said trip cable is secured, a shaft to which said drum is secured, a spider secured to said shaft, bosses on said spider, a pinion rotatably mounted on said shaft, a ring flange on said pinion, a rocking memher, a spring tension finger carried by said rocking member and bearing on said ring flange, a centrally fulcrumed lever pivoted on said rocking member. a spring for maintaining said lever in position and which lever is arranged so that one end is adapted to move into the path of the bosses on said spider when said rocking member swings on its axis.
8. In a power shovel, the combination with the dipper door latch and one of the constantly rotating gears of the shovel, of means for taking up the slack of the dip per door latch tripping cable, comprising a drum on which the trip cable is wound, a shaft to which said drum is secured, a spider secured to said shaft, a pinion rotatably mounted on said shaft, a web between the spokes of the said pinion to provide a fric tion surface, a friction disc slidablymounted on the hubs of said spider and pinion, a clutch facing interposed between said friction disc and said web, thrust pins secured to said friction disc and extending between the spokes of said spider, an adjustably mounted pivoted yoke, a thrust bearing disposed between the ends of said thrust pins and yoke, a fulcrumed bell-crank lever having one arm in contact with said yoke, a spring interposed between said yoke and arm, a control wire pivotally connected to the other arm of said bell-crank, a lever to which the other end of said control wire is connected, a plate secured to one of the operating levers of the shovel with which the trip is associated, said last mentioned lever being fulcrumed on said plate and an adjusting screw seated in said plate and adapted to bear against said lever so as to regulate the pressure betweensaid disc and pinion to maintain any desired tension on the cable.
In testimony whereof I aflix my signature.
LAGAR R. CULVER.
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3275115A (en) * 1965-01-27 1966-09-27 Int Harvester Co Clutch
US20150345105A1 (en) * 2014-06-02 2015-12-03 Harnischfeger Technologies, Inc. Dipper for a mining shovel
US9605405B2 (en) 2014-07-28 2017-03-28 Caterpillar Global Mining Llc Snubber for machine
US9617707B2 (en) 2014-07-28 2017-04-11 Caterpillar Global Mining Llc Snubber for machine

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3275115A (en) * 1965-01-27 1966-09-27 Int Harvester Co Clutch
US20150345105A1 (en) * 2014-06-02 2015-12-03 Harnischfeger Technologies, Inc. Dipper for a mining shovel
US9809947B2 (en) * 2014-06-02 2017-11-07 Harnischfeger Technologies, Inc. Dipper for a mining shovel
US9605405B2 (en) 2014-07-28 2017-03-28 Caterpillar Global Mining Llc Snubber for machine
US9617707B2 (en) 2014-07-28 2017-04-11 Caterpillar Global Mining Llc Snubber for machine

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