Tie Rod for Toyota Corolla

Tie rod for toyota corolla 1. Chassis refers to the automobile by the transmission system, driving system, steering system and braking system of the four components of the combination, supporting and installing the automobile engine and its components, assembly, forming the overall shape of the...

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Product Details

Tie rod for toyota corolla

Steering rack system speed conrol fault analysis and processing methods 

The main reason for steering rack actuator crawling

1) Entering air into the system;

2) Due to poor lubrication, the axis of the guide rail and the hydraulic cylinder are not parallel, the sealing pressure of the piston rod is too tight, and the bending and deformation of the piston rod cause the friction force of the hydraulic cylinder to change greatly during the working stroke to cause creep;

3) In the oil inlet throttle speed control system, the hydraulic cylinder has no back pressure or back pressure, and when the external load changes, the cylinder speed changes;

4)The pulsation of the flow of the hydraulic pump is large, and the vibration of the overflow valve causes the pressure pulsation of the system to be large, causing the hydraulic cylinder to input the pressure oil to fluctuate and cause creep;

5)The valve port of the throttle valve is blocked, the system leakage is unstable, and the pressure reducing valve in the speed regulating valve is not flexible, causing the flow to be unstable and causing creep.


1. Chassis refers to the automobile by the transmission system, driving system, steering system and braking system of the four components of the combination, supporting and installing the automobile engine and its components, assembly, forming the overall shape of the car, bearing the engine power, to ensure normal driving. And Steering system consists of steering wheel, steering gear, steering knuckle, steering knuckle arm, transverse tie rod, straight tie rod, tie rod end etc.


2. Item specifics

Condition:

New

Manufacturer Part Number:  AC-TRE008

Part Brand:

Original Performance

Interchange Part Number:

4504619175

Brand:

HDAG

Placement on Vehicle:

Outer, Front

Warranty:

1 year

UPC:

N/A

1)Fitting Position Front Axle For TOYOTA tie rod end

2)Matrial: Ball Shell Use 45 Steel, Ball Pin Use 40 C


3. Seller assumes SOME responsibility for this listing.


Notes
Important part details

Year

Make

Model

Trim

Engine

.

2006

Scion

xA

Base Hatchback 5-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2006

Scion

xB

Base Wagon 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Scion

xA

Base Hatchback 5-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Scion

xB

Base Wagon 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Toyota

Echo

Base Hatchback 3-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Toyota

Echo

Base Hatchback 5-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Toyota

Echo

Base Sedan 2-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2005

Toyota

Echo

Base Sedan 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Scion

xA

Base Hatchback 5-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Scion

xB

Base Wagon 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Toyota

Echo

Base Hatchback 3-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Toyota

Echo

Base Hatchback 5-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Toyota

Echo

Base Sedan 2-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2004

Toyota

Echo

Base Sedan 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2003

Toyota

Echo

Base Sedan 2-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2003

Toyota

Echo

Base Sedan 4-Door

1.5L 1497CC l4 GAS DOHC Naturally Aspirated

.

2003

Toyota

RAV4

Base Sport Utility 4-Door

ELECTRIC

To January 2002; ZZE110.

2002

Toyota

Corolla

CE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

To January 2002; ZZE110.

2002

Toyota

Corolla

LE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

To January 2002; ZZE110.

2002

Toyota

Corolla

S Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

Notes
Important part details

Year

Make

Model

Trim

Engine

.

2002

Toyota

RAV4

Base Sport Utility 4-Door

ELECTRIC

.

2001

Toyota

Corolla

CE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

2001

Toyota

Corolla

LE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

2001

Toyota

Corolla

S Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

2001

Toyota

RAV4

Base Sport Utility 4-Door

ELECTRIC

To January 2002; ZZE110.

2000

Toyota

Corolla

CE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

To January 2002; ZZE110.

2000

Toyota

Corolla

LE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

To January 2002; ZZE110.

2000

Toyota

Corolla

VE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

1998cc

2000

Toyota

RAV4

Base Sport Utility 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

1998cc

2000

Toyota

RAV4

Base Sport Utility 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

5SFE Eng.; To August 1999

1999

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

5SFE Eng.; To August 1999

1999

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1999

Toyota

Corolla

CE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

1999

Toyota

Corolla

LE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

1999

Toyota

Corolla

VE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

1998cc

1999

Toyota

RAV4

Base Sport Utility 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

1998cc

1999

Toyota

RAV4

Base Sport Utility 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1998

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1998

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1998

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

Notes
Important part details

Year

Make

Model

Trim

Engine

.

1998

Toyota

Corolla

CE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

1998

Toyota

Corolla

LE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

.

1998

Toyota

Corolla

VE Sedan 4-Door

1.8L 1794CC l4 GAS DOHC Naturally Aspirated

Eng. VIN S ; 1998cc

1998

Toyota

RAV4

Base Sport Utility 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

Eng. VIN S ; 1998cc

1998

Toyota

RAV4

Base Sport Utility 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

Corolla

CE Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

RAV4

Base Sport Utility 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1997

Toyota

RAV4

Base Sport Utility 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

RAV4

Base Sport Utility 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1996

Toyota

RAV4

Base Sport Utility 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

.

1995

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1995

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1995

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

Notes
Important part details

Year

Make

Model

Trim

Engine

.

1995

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1994

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1994

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1994

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

GTS All Trac Hatchback 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Turbocharged

.

1993

Toyota

Celica

GTS Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

GTS Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Celica

ST Coupe 2-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Corolla

All Trac Wagon 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1993

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Celica

All Trac Hatchback 2-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Turbocharged

.

1992

Toyota

Celica

GT Convertible 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Celica

GT Coupe 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Celica

GT Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Celica

GTS Hatchback 2-Door

2.2L 2164CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Celica

GTS Hatchback 2-Door

2.2L 2164CC l4 GAS Naturally Aspirated

.

1992

Toyota

Celica

ST Coupe 2-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

Notes
Important part details

Year

Make

Model

Trim

Engine

.

1992

Toyota

Corolla

Base Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Corolla

DLX All Trac Wagon 5-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Corolla

DLX Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Corolla

DLX Wagon 5-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Corolla

LE Sedan 4-Door

1.6L 1587CC l4 GAS DOHC Naturally Aspirated

.

1992

Toyota

Corolla

LSX Sedan 4-Door

1.6L 1587CC l4 GAS Naturally Aspirated

.

1992

Toyota

Corolla

SR5 All Trac Wagon 4-Door

1.6L 1587CC l4 GAS Naturally Aspirated

.

1992

Toyota

Corolla

SR5 Coupe 2-Door

1.6L 1587CC l4 GAS Naturally Aspirated

.

1992

Toyota

Corolla

SR5 Wagon 4-Door

1.6L 1587CC l4 GAS Naturally Aspirated

.

1991

Lexus

ES250

Base Sedan 4-Door

2.5L 2508CC V6 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991

1991

Toyota

Camry

Base Sedan 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991

1991

Toyota

Camry

DLX All Trac Sedan 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991

1991

Toyota

Camry

DLX Sedan 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

2VZFE Eng.; To September 1991

1991

Toyota

Camry

DLX Sedan 4-Door

2.5L 2508CC V6 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991

1991

Toyota

Camry

DLX Wagon 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

2VZFE Eng.; To September 1991

1991

Toyota

Camry

DLX Wagon 4-Door

2.5L 2508CC V6 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991.

1991

Toyota

Camry

LE All Trac Sedan 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991

1991

Toyota

Camry

LE Sedan 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated

2VZFE Eng.; To September 1991

1991

Toyota

Camry

LE Sedan 4-Door

2.5L 2508CC V6 GAS DOHC Naturally Aspirated

3SFE Eng.; To September 1991.

1991

Toyota

Camry

LE Wagon 4-Door

2.0L 1998CC 122Cu. In. l4 GAS DOHC Naturally Aspirated



4. Our HDAG brand packing photo

4..jpg


5. Our factory presentation

5.第一张_副本.jpg

 

6. Our roughcast and semi finished products show


7. Our certification

7..jpg


8. Our testing report before shipment

8. 第一张_副本.jpg

8. 第二张_副本.jpg 


9. Our tie rod end assemble vedio


10. Our customer visits

10..JPG


11. Tips

Celebrate the successful revision of the official website of Taizhou Dongna

 

Celebrate the successful revision of the official website of Taizhou Dongna mechanical&electrical Co., Ltd.!

This article "Celebration of the official website of Taizhou Dongna mechanical&electrical Co., Ltd. was successfully revised! 》 by auto steering rack and engine mount manufacturers -

11..jpg

ATTACHED NEWS:

Steering rack cavitation prevent measures

Let DONGNA share the follow preventive measures of power steering rack with everybody here

(1) Prevent oil temperature from being too high and reduce hydraulic shock

Reasonable design of the heat dissipation system and prevention of excessive oil temperature is the key to maintaining the normal temperature of the hydraulic oil. If an abnormality occurs, you should find the cause and eliminate it in time. When manipulating the hydraulic joystick and the distribution valve, it is necessary to strive for stability, not too fast, too fast, and it is not advisable to increase the engine throttle frequently to minimize the impact of the hydraulic oil on the hydraulic components. At the same time, the cooling system should be maintained in a timely manner to keep the temperature of the cooling system within a suitable range to reduce the energy released when the bubble bursts. While not affecting the normal circulation of the coolant, a certain amount of anti-corrosion additive may be appropriately added to suppress rust.

(2) Maintain the normal clearance of the joint faces of the hydraulic components

When manufacturing or repairing the main parts of the hydraulic cylinder (such as cylinder block, piston rod, etc.), it should be assembled according to the lower limit of the assembly size. It has been proved that this can reduce the occurrence of cavitation. If cavitation has occurred in the hydraulic components, the cavitation pitting and surface area charcoal can only be removed by metallographic sandpaper polishing technology, and can not be polished by ordinary fine sandpaper.


How Foreign body entered steering rack cylinder

Foreign matter entering from the pipeline Foreign matter entering the pipeline has a variety of conditions:

a. Do not pay attention when cleaning. When the pipeline is installed and cleaned, it should not pass through the cylinder. A bypass line must be installed in front of the oil port of the cylinder. this point is very important. Otherwise, the foreign matter in the pipeline will enter the cylinder. Once it enters, it is difficult to remove it outward, but instead it will transfer foreign matter to the cylinder. In addition, when cleaning, consider the method of removing the foreign matter introduced in the installation of the pipeline. In addition, the corrosion in the pipe, etc., should be carried out before the installation of the pipeline, and the rust must be completely removed. Full hydraulic power steering gear

b. Chips formed during pipe processing. After the tube has been machined for a fixed length, it should not be left behind when deburring it at both ends. Furthermore, placing steel pipes near the site where the welding pipeline is operated is the cause of welding foreign matter. The pipe placed near the welding operation site shall be sealed at the nozzle. It must also be noted that the pipe material should be available on a dust-free work surface. Full hydraulic steering gear

c. The sealing tape enters the cylinder. As a simple sealing material, a PTFE plastic sealing tape is often used in installation and inspection. If the winding method of the linear or strip-shaped sealing material is not correct, the sealing tape will be cut off and enter the cylinder. The wire strip seal does not affect the winding of the sliding part, but it may cause the check valve of the cylinder to malfunction or cause the buffer regulating valve to not adjust to the end; for the circuit, it may cause the reversing valve and overflow The valve and pressure reducing valve malfunction.

The traditional repair method is to repair the damaged parts after the disassembly, or to perform brush plating or overall scratching of the surface, repair the cylinder of the periodic cylinder to repair the scratch, and the repair cost is high. Full hydraulic steering gear

The use of Maxwell's application technology to recover the scratch size of the phenomenon, the excellent adhesion of the material and the good pressure resistance, not only can meet the production requirements under the above requirements, but also the operation process is simple and easy. No heat effect, the thickness of the coating is not limited. At the same time, the coating itself has superior oil and corrosion resistance and self-lubricating function, ensuring the wear resistance after repair, ensuring the normal production of the enterprise and avoiding the damage of equipment components.

 


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