Sears 486.24412 Hairpin Cotter Lift Lever, Handle, Guide, HEX Bolt Lock NUT, Special Shoulder

Page 9

HAIRPIN

COTTER

\

- LIFT LEVER

SUPPORT

i

T

.-,-BRACKET

 

 

 

 

HANDLE

3/8" X 1 "---_---_ ]

 

 

GUIDE

 

 

 

HEX BOLTS '=_---,

-,

 

 

,_3/8"_HEX'I2OCK NUTS -_.

UP STOP BRACKET

FIGURE 22

27.Wrap plastic tie around handle tube and cable, (see figure 24), assembling end of tie through lock. Pull plastic tie tight to retain cable to handle tube near front of tractor hood. Cut oft extra plastic end.

28.Assemble grip assembly to handle assembly us- ing one 5/16" x 1-1/2" hex bolt and one 5/16" hex lock nut. NOTE: Do not over tighten lock nut, grip assembly must pivot freely.

5/16" x 1-1/2"

CABLE END f3_"HEX

FFn'ING

HEX BOLT

LOCK NUT

23.Assemble handle guide (with loop outside) at top of support bracket and secure with one hairpin cotter inside. See figures 22 and 23.

HANDLE

HANDLE HAIRPIN

HANDLEI

GRIP

COTTER

GUIDE

 

/

GRIP

ASSEMBLY

HANDLE

ASSEMBLY

114"WELD BOLT

FIGURE 25

HANDLE GUIDE

CABLE

(OUTSIDE GUIDE'

LSUPF_ORT

-BRACKET

ICONTROL3/4". CABLE END

FIGURE 23

24. Assemble handleassemblydownthrough handle guide as shown in figure 23. Secure lower end of handle to top side of blade pive_ bracket with special shoulder bolt (on top) and 3/8" hex whizl0ck nut underneath. See figure 24.

25.Assemble one 5/16-24" hex nut onto threaded end of control cable approximately 3/4" from end.

Assemble threaded end of cable up through cable mount ear and secure with second 5/16-24" hex

nut. See figure 24.

26.Assemble handle grip on upper end of handle

assembly if not already pre-assembled. See

29.Assemble ball end of cable (see figure 23), through round hole in cable end fitting and into slot of fitting. See figure 25. Assemble cable end fitting over 1/4" weld bolt on grip assembly and secure with one 1/4" hex lock nut. NOTE: Do not over tighten lock nut, cable fitting must pivot freely.

(R.H.) HITCH PLATE

FRONT

L.H.) HITCH PLATE

SHAFT END

figure 23.

CABLEPLASTIC

/ //

#

/

GUIDE

BRACKET

ASSEMBLYCHANNEL

ASSEMBLY

FIGURE 26

SPECIAL

SHOULDER

BOLT

3/8" HEX

WHIZLOCK NUT

BLADE

HANDI_I_ PIVOT

TUBE BRACKET

30.Assemble guide bracket assembly shaft end into the left hand hitch plate. See figure 26. Slide

guide assembly back to the right and into the hole in the right hand hitch plate, and secure with a hairpin cotter on each end. See figure 27. Lower front end of guide bracket assembly to straddle channel assembly. See figure 27.

FIGURE 24

9

Image 9
Contents Dozer Blade Safety is Involved Carton Contents QTY DescriptionRules for Safe Operations HexBolt5116-18x1-112 Contents of Parts Package FigureAssembly Instructions Carriage Bolt Lock Washer Cable Mount Bracket Ihex Lock NUTPush Remove 3/8Hitch Plates Spring Adjustment Bolts Plastic CAP Blade ReadHEX Bolt Clearance 1/2 X 16 Washers Minimum HEX BoltBracket LH Clevis Pins See Adjustment Section on 10 for Spring TensionAssembly Lock NUT Lift Link RODLift Spring Back View Tractoi Adjustment Bolt JAMRight Hand Side View Front FlatHandle Hairpin Cotter Lift LeverGuide HEX Bolt Lock NUTSudden Stops of Change Hidden Objects can Cause Direction AdjustmentsLift Control Lever Attachmentlever Depth Control KnobGround Before Leaving Always Lower Blade to Tractor OperationHairpin Cotter Handle Assembly Supportguide Bracket Cotters Guide Bracket AssemblyTo Remove Dozer Blade from Tractor ARMStorage Customer ResponsibilitesRepair Parts for Model Dozer Blade Repaih Parts List for Model Dozer Blade NO. Part NO, QTY DescriptionQTY,DESCRIPTION PnINTEDtNU.S.A Manual

486.24412 specifications

The Sears 486.24412 is a significant entry in the realm of consumer electronics, notably during the time of rapid technological advancement in the late 20th century. Launched as part of a broader line of products aimed at home and small office environments, the 486.24412 represents the height of the IBM-compatible PC era, offering users an efficient blend of performance and user accessibility.

One of the standout features of the Sears 486.24412 is its powerful 80486 processor, which was a game-changer in the computing landscape. This processor allowed for improved computing speed and efficiency, paving the way for enhanced multitasking capabilities. Coupled with its advanced mathematics coprocessor, users could perform complex calculations and run software demanding higher computational power with relative ease.

The system typically came with a range of memory options, most often starting from 4MB of RAM, expandable to 32MB. This scalability was vital for users who required more from their devices, particularly for applications that utilized large datasets or graphic-heavy software. The enhanced memory capacity allowed for smoother operation and reduced loading times, enhancing overall user experience.

In terms of storage, the Sears 486.24412 included a standard hard drive, often beginning at around 100MB, which was considerable at the time. The hard drive was complemented by a floppy disk drive, enabling easy data transfer and software installation from external media. Users appreciated the inclusion of multimedia capabilities, with options for sound cards and graphics accelerators that appealed to gamers and graphic designers alike.

The 486.24412 also featured a dedicated video display adapter that supported various resolutions, catering to both text-based applications and graphical user interfaces. This flexibility made it suitable for diverse tasks ranging from word processing to more intensive graphical applications.

Connectivity options were ahead of their time, with the inclusion of parallel and serial ports allowing for the connection of printers and other peripherals. Additionally, the possibility of networking via Ethernet expanded the usability of the 486.24412 in office environments, paving the way for shared resources and collaborative work.

Overall, the Sears 486.24412 encapsulated the technological advances of its era while providing a robust, user-friendly experience. It aimed to meet the demands of both everyday users and professionals, highlighting the importance of performance and versatility in computing.