3573525 COIL AS-EVAPORATOR Caterpillar parts
24M, 793F, 793F AC, 793F CMD, 793F OEM, 793F-XQ, 795F AC, 795F XQ, 797F, 993K
Rating:
Alternative (cross code) number:
CA3573525
357-3525
3573525
CA3573525
357-3525
3573525
Weight: 5 pounds 2 kg.
MOTOR GRADER, WHEEL LOADER,
Compatible equipment models: 3573525:
Information:
Changes in Forward speed of the Paver
The density of material in the strike-off zone provided by the compacting action of the screed varies as the machine forward speed varies. The given number of blows (impacts) delivered to a given area or quantity of material is dependent on the speed at which the screed strikes off and passes over the mix.When the paver slows, there is more compaction and the screed rises. When the paver speeds up, there is less compaction and the screed lowers.To meet varying desired production rates and different pavement thicknesses and widths, a paver must be capable of operating at different speeds. However, UNCONTROLLED speed variations must be avoided to obtain optimum performance of the floating screed.Changes in Screw Action
As the distributing screw operates to move the paving material from the center portion to the outer edges of the screed, the material exerts force on the deflector plate through the material. Remember, these forces change with the level of material in the screw chamber. Because variations affect pressures applied against the screed and material density, the screw should be operated with as few interruptions as possible to insure optimum stability and a smooth mat.Screed Compacting Process
In addition to the strike-off and leveling function, the screed also compacts the paving material in the strike off zone and under the screed plate. Along with paving speed and material quantities, the weight of the screed and the amount and type of compacting energy generated at the screed affect compaction.The key elements to remember in considering compaction during strike-off and leveling is that the material should be compacted uniformly, in the direction of the paving and also across the mat. Uniform compaction is important for two reasons:1. To achieve optimum leveling with the floating screed.2. To make sure that the subsequent rolling will not cause permanent distortion of the mat surface.Uniform mix consolidation combined with precise control of paving speed and material distribution results in a smooth and uniformly-compact pavement.Automatic Control Systems
There are various kinds of automatic control systems. When using an automatic control system, the screed follows a path parallel to an external profile grade reference. A desired transverse slope is established regardless of disturbances from the tow points or the screed itself. In these systems, the grade is controlled by a grade sensor. The sensor takes sensings from a leveler or other grade reference.Transverse slope is controlled with gravity-oriented sensings taken from a beam transversely connecting the two leveling arms.The floating screed tends to follow the path of the tow points. The automatic leveling control systems make the screed movement independent of undesirable vertical motions of the tractor as it moves over the surface to be paved. The automatic controls adjust the tow points so the screed, and therefore the pavement surface, traces a path parallel to grade and slope references instead of the vertical motions of the tractor.Sensor Location
Location of grade and slope sensors is an important consideration in obtaining automatic leveling systems.Before selecting the sensor
The density of material in the strike-off zone provided by the compacting action of the screed varies as the machine forward speed varies. The given number of blows (impacts) delivered to a given area or quantity of material is dependent on the speed at which the screed strikes off and passes over the mix.When the paver slows, there is more compaction and the screed rises. When the paver speeds up, there is less compaction and the screed lowers.To meet varying desired production rates and different pavement thicknesses and widths, a paver must be capable of operating at different speeds. However, UNCONTROLLED speed variations must be avoided to obtain optimum performance of the floating screed.Changes in Screw Action
As the distributing screw operates to move the paving material from the center portion to the outer edges of the screed, the material exerts force on the deflector plate through the material. Remember, these forces change with the level of material in the screw chamber. Because variations affect pressures applied against the screed and material density, the screw should be operated with as few interruptions as possible to insure optimum stability and a smooth mat.Screed Compacting Process
In addition to the strike-off and leveling function, the screed also compacts the paving material in the strike off zone and under the screed plate. Along with paving speed and material quantities, the weight of the screed and the amount and type of compacting energy generated at the screed affect compaction.The key elements to remember in considering compaction during strike-off and leveling is that the material should be compacted uniformly, in the direction of the paving and also across the mat. Uniform compaction is important for two reasons:1. To achieve optimum leveling with the floating screed.2. To make sure that the subsequent rolling will not cause permanent distortion of the mat surface.Uniform mix consolidation combined with precise control of paving speed and material distribution results in a smooth and uniformly-compact pavement.Automatic Control Systems
There are various kinds of automatic control systems. When using an automatic control system, the screed follows a path parallel to an external profile grade reference. A desired transverse slope is established regardless of disturbances from the tow points or the screed itself. In these systems, the grade is controlled by a grade sensor. The sensor takes sensings from a leveler or other grade reference.Transverse slope is controlled with gravity-oriented sensings taken from a beam transversely connecting the two leveling arms.The floating screed tends to follow the path of the tow points. The automatic leveling control systems make the screed movement independent of undesirable vertical motions of the tractor as it moves over the surface to be paved. The automatic controls adjust the tow points so the screed, and therefore the pavement surface, traces a path parallel to grade and slope references instead of the vertical motions of the tractor.Sensor Location
Location of grade and slope sensors is an important consideration in obtaining automatic leveling systems.Before selecting the sensor
Caterpillar parts catalog:
Parts coil Caterpillar catalog:
7M0324
COIL AS-FIELD
1090, 1190, 1190T, 120M, 120M 2, 1290T, 12M 2, 12M 3, 12M 3 AWD, 1390, 140M, 140M 2, 140M 3, 140M 3 AWD, 14H, 14M, 16, 160M, 160M 2, 160M 3, 160M 3 AWD, 1693, 16H NA, 16M, 2290, 235, 235D, 2390, 2391,...
1090, 1190, 1190T, 120M, 120M 2, 1290T, 12M 2, 12M 3, 12M 3 AWD, 1390, 140M, 140M 2, 140M 3, 140M 3 AWD, 14H, 14M, 16, 160M, 160M 2, 160M 3, 160M 3 AWD, 1693, 16H NA, 16M, 2290, 235, 235D, 2390, 2391,...
2189894
COIL AS
1090, 1190, 1190T, 120H, 120H ES, 120H NA, 120K, 120K 2, 1290T, 12G, 12H, 12H ES, 12H NA, 12K, 130G, 135H, 135H NA, 1390, 140G, 140H, 140H ES, 140H NA, 140K, 140K 2, 143H, 14H, 14H NA, 160H, 160H ES, ...
1090, 1190, 1190T, 120H, 120H ES, 120H NA, 120K, 120K 2, 1290T, 12G, 12H, 12H ES, 12H NA, 12K, 130G, 135H, 135H NA, 1390, 140G, 140H, 140H ES, 140H NA, 140K, 140K 2, 143H, 14H, 14H NA, 160H, 160H ES, ...
3239531
COIL AS
1190, 1190T, 120H, 120K, 120M, 120M 2, 1290T, 12H, 12K, 12M, 12M 2, 12M 3, 12M 3 AWD, 135H, 1390, 140H, 140K, 140M, 140M 2, 140M 3, 140M 3 AWD, 143H, 14M, 160H, 160K, 160M, 160M 2, 160M 3, 160M 3 AWD,...
1190, 1190T, 120H, 120K, 120M, 120M 2, 1290T, 12H, 12K, 12M, 12M 2, 12M 3, 12M 3 AWD, 135H, 1390, 140H, 140K, 140M, 140M 2, 140M 3, 140M 3 AWD, 143H, 14M, 160H, 160K, 160M, 160M 2, 160M 3, 160M 3 AWD,...
3731585
COIL AS
988H, 990K, 992K, 993K, 994H
988H, 990K, 992K, 993K, 994H
2673963
COIL AS-HEATER
24M, 793F, 793F AC, 793F CMD, 793F OEM, 793F-XQ, 795F AC, 795F XQ, 797F, 993K
24M, 793F, 793F AC, 793F CMD, 793F OEM, 793F-XQ, 795F AC, 795F XQ, 797F, 993K
3051981
COIL AS
12M 3, 12M 3 AWD, 140M 3, 140M 3 AWD, 160M 3, 160M 3 AWD, 24M, 374F L, 390F L, 793F CMD, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M
12M 3, 12M 3 AWD, 140M 3, 140M 3 AWD, 160M 3, 160M 3 AWD, 24M, 374F L, 390F L, 793F CMD, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M
2575022
COIL AS
120M, 120M 2, 12M, 12M 2, 12M 3, 12M 3 AWD, 140M, 140M 2, 140M 3, 140M 3 AWD, 14M, 160M, 160M 2, 160M 3, 160M 3 AWD, 16M, 795F AC, 795F XQ, 797, 797B, 797F, 824C, 826H, 836H, 988K, D11R, D11T
120M, 120M 2, 12M, 12M 2, 12M 3, 12M 3 AWD, 140M, 140M 2, 140M 3, 140M 3 AWD, 14M, 160M, 160M 2, 160M 3, 160M 3 AWD, 16M, 795F AC, 795F XQ, 797, 797B, 797F, 824C, 826H, 836H, 988K, D11R, D11T
3548769
COIL-SOLENOID
777F, 777G, 793F, 793F AC, 793F CMD, 793F-XQ, 795F AC
777F, 777G, 793F, 793F AC, 793F CMD, 793F-XQ, 795F AC
3110456
COIL AS
24M
24M
4309686
COIL AS
16M, 24M
16M, 24M
2673963
COIL AS-HEATER
24M, 793F, 793F AC, 793F CMD, 793F OEM, 793F-XQ, 795F AC, 795F XQ, 797F, 993K
24M, 793F, 793F AC, 793F CMD, 793F OEM, 793F-XQ, 795F AC, 795F XQ, 797F, 993K
3731585
COIL AS
988H, 990K, 992K, 993K, 994H
988H, 990K, 992K, 993K, 994H
1566178
COIL AS-SOLENOID
769D, 771D, 773D, 775D, 784B, 784C, 785B, 785C, 789B, 789C, 793B, 793C, 994D, D10R, D9R
769D, 771D, 773D, 775D, 784B, 784C, 785B, 785C, 789B, 789C, 793B, 793C, 994D, D10R, D9R
3225036
COIL AS
834H, 834K, 836G, 836H, 836K, 844H, 844K, 854K, 988G, 988H, 988K, 990H, 990K, 992K, 993K, 994F, 994H
834H, 834K, 836G, 836H, 836K, 844H, 844K, 854K, 988G, 988H, 988K, 990H, 990K, 992K, 993K, 994F, 994H
1766495
COIL AS
834G, 836G, 854G, 988G, 992G, 994D
834G, 836G, 854G, 988G, 992G, 994D
1906464
COIL
966G, 972G
966G, 972G
3962303
COIL AS
988K
988K
2575022
COIL AS
120M, 120M 2, 12M, 12M 2, 12M 3, 12M 3 AWD, 140M, 140M 2, 140M 3, 140M 3 AWD, 14M, 160M, 160M 2, 160M 3, 160M 3 AWD, 16M, 795F AC, 795F XQ, 797, 797B, 797F, 824C, 826H, 836H, 988K, D11R, D11T
120M, 120M 2, 12M, 12M 2, 12M 3, 12M 3 AWD, 140M, 140M 2, 140M 3, 140M 3 AWD, 14M, 160M, 160M 2, 160M 3, 160M 3 AWD, 16M, 795F AC, 795F XQ, 797, 797B, 797F, 824C, 826H, 836H, 988K, D11R, D11T
3051981
COIL AS
12M 3, 12M 3 AWD, 140M 3, 140M 3 AWD, 160M 3, 160M 3 AWD, 24M, 374F L, 390F L, 793F CMD, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M
12M 3, 12M 3 AWD, 140M 3, 140M 3 AWD, 160M 3, 160M 3 AWD, 24M, 374F L, 390F L, 793F CMD, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M
2919134
COIL AS-HEATER
824K, 825K, 826K, 834K, 836K, 950K, 962K, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M, 988K
824K, 825K, 826K, 834K, 836K, 950K, 962K, 966K, 966M, 966M XE, 972K, 972M, 972M XE, 980K, 980K HLG, 980M, 982M, 988K
2919133
COIL AS-EVAPORATOR
950K, 962K, 966K, 972K, 980K, 980K HLG
950K, 962K, 966K, 972K, 980K, 980K HLG
3638793
COIL AS-HEATER
844K, 854K, 990K, 992K, 993K, 994H
844K, 854K, 990K, 992K, 993K, 994H