3693807 ELECTRONICS GP-MONITOR Caterpillar parts
D11T, D8T, D9T
Rating:
Alternative (cross code) number:
CA3693807
369-3807
3693807
CA3693807
369-3807
3693807
TRACK-TYPE TRACTOR,
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Information:
Load Sensing During the Slight Operation of an Individual Cylinder
Illustration 2 g00875502
Bucket control valve (BUCKET CLOSE) (1) Bucket cylinder (9) Flow compensator valve (10) Valve chamber (15) Passage (16) Passage (30) Passage (31) Passage (32) Spool (PD) Delivery pressure (PL) Load pressure (LS) Load sensing signal pressureCombined flow from the front pump and rear pump (PD) enters the bucket control valve. Spool (32) moves a slight amount to the left. Passage (31) opens a slight amount. The oil delivery flows through passage (31), valve chamber (10), passage (30) and passage (16). The oil then flows to bucket cylinder (1). The true load signal pressure (PL) is generated in passages (16) and (15). True load signal pressure (PL) flows to the signal duplication valve. The true load signal pressure is duplicated as load sensing signal pressure. The load sensing signal pressure is sent to the flow compensator valves. The true load signal pressure flows to the front pump and the rear pump in order to regulate the output flow of the pumps.The output flow of the pumps is decreased in order to maintain a pressure difference between the pump delivery pressure (PD) and the load sensing signal pressure (LS) to 1960 kPa (285 psi). If the bucket control lever is moved closer to the NEUTRAL position, the size of the opening at passage (31) decreases.As the pump oil flow through passage (31) decreases, pressure in the passage that is below flow compensator valve (9) decreases. True load signal pressure in passage (16), the load sensing signal pressure (LS) and the force of the spring on the flow compensator valve (9) pushes flow compensator valve (9) downward. This reduces the flow through passage (30) which results in a pressure decrease in passages (16) and (15). The reduced true load signal pressure in passage (15) flows to the signal duplication valve and the load sensing signal pressure is also reduced. The output flow of the pumps decreases further by load sensing regulation.When the output flow of the pumps is decreased, the size of the opening at compensator valve (9) is also decreased.Load Sensing During Combined Control Valve Operations
Illustration 3 g00953668
Circuit diagram for combined control valve operation (BOOM RAISE and STICK OUT) (1) Stick cylinder (2) Boom cylinder (3) Passage (5) Shuttle valve (7) Signal duplication valve (8) Passage (9) Shuttle valve (10) Passage (12) Shuttle valve (13) Compensator valve (boom) (14) Boom control valve (16) Passage (17) Stick control valve (18) Compensator valve (stick) (22) Load check valve (23) Passage (24) Passage (25) Passage (28) Passage (29) Passage (30) Boom drift reduction valve (31) Pilot pump (32) Front pump (33) Rear pump (34) Orifice (40) Line (PD) Pump delivery pressure (PLS) Load pressure (stick side) (PLB) Load pressure (boom side) (LS) Load sensing signal pressureIn the following explanation of oil flow, the joysticks are at the FULL STROKE position.. The boom hydraulic circuit and the stick hydraulic circuit are operated for a combined operation. The load on the stick hydraulic circuit is greater
Illustration 2 g00875502
Bucket control valve (BUCKET CLOSE) (1) Bucket cylinder (9) Flow compensator valve (10) Valve chamber (15) Passage (16) Passage (30) Passage (31) Passage (32) Spool (PD) Delivery pressure (PL) Load pressure (LS) Load sensing signal pressureCombined flow from the front pump and rear pump (PD) enters the bucket control valve. Spool (32) moves a slight amount to the left. Passage (31) opens a slight amount. The oil delivery flows through passage (31), valve chamber (10), passage (30) and passage (16). The oil then flows to bucket cylinder (1). The true load signal pressure (PL) is generated in passages (16) and (15). True load signal pressure (PL) flows to the signal duplication valve. The true load signal pressure is duplicated as load sensing signal pressure. The load sensing signal pressure is sent to the flow compensator valves. The true load signal pressure flows to the front pump and the rear pump in order to regulate the output flow of the pumps.The output flow of the pumps is decreased in order to maintain a pressure difference between the pump delivery pressure (PD) and the load sensing signal pressure (LS) to 1960 kPa (285 psi). If the bucket control lever is moved closer to the NEUTRAL position, the size of the opening at passage (31) decreases.As the pump oil flow through passage (31) decreases, pressure in the passage that is below flow compensator valve (9) decreases. True load signal pressure in passage (16), the load sensing signal pressure (LS) and the force of the spring on the flow compensator valve (9) pushes flow compensator valve (9) downward. This reduces the flow through passage (30) which results in a pressure decrease in passages (16) and (15). The reduced true load signal pressure in passage (15) flows to the signal duplication valve and the load sensing signal pressure is also reduced. The output flow of the pumps decreases further by load sensing regulation.When the output flow of the pumps is decreased, the size of the opening at compensator valve (9) is also decreased.Load Sensing During Combined Control Valve Operations
Illustration 3 g00953668
Circuit diagram for combined control valve operation (BOOM RAISE and STICK OUT) (1) Stick cylinder (2) Boom cylinder (3) Passage (5) Shuttle valve (7) Signal duplication valve (8) Passage (9) Shuttle valve (10) Passage (12) Shuttle valve (13) Compensator valve (boom) (14) Boom control valve (16) Passage (17) Stick control valve (18) Compensator valve (stick) (22) Load check valve (23) Passage (24) Passage (25) Passage (28) Passage (29) Passage (30) Boom drift reduction valve (31) Pilot pump (32) Front pump (33) Rear pump (34) Orifice (40) Line (PD) Pump delivery pressure (PLS) Load pressure (stick side) (PLB) Load pressure (boom side) (LS) Load sensing signal pressureIn the following explanation of oil flow, the joysticks are at the FULL STROKE position.. The boom hydraulic circuit and the stick hydraulic circuit are operated for a combined operation. The load on the stick hydraulic circuit is greater
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Caterpillar parts catalog:
Parts electronics Caterpillar catalog:
3693806
ELECTRONICS GP-MONITOR
D11T, D8T, D9T
D11T, D8T, D9T
3748279
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3748278
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3747145
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3712163
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D11T, D8T, D9T
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3712162
ELECTRONICS GP-MONITOR
D11T, D8T, D9T
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