Auto Body Shop Summit, NJ – What Can they do for You?
If you experienced some frame damage to your car, you’ll need some repair and Peotter’s Tire & Auto is just the place to get it taken care of.
What are the three questions should ask a body shop before they consider dropping their car off for repairs?
Well what’s important is that the repair shop actually be qualified to fix that particular vehicle.
Today modern cars require specialized training and equipment to be able to perform repairs to the manufacturer’s standards.
So, glue joints and rivets.
They’re actually repaired like aircraft today.
This is important because this maintains the structural integrity the manufacturer designed for a repair situation.
>> I'm Chad.
I'm a second-year student here at DCTC.
I've been an apprentice at ABRA inBloomington for just about a year, now.
Doing some frame damage,here, repair on a 2005 Ford.
Three door, got hit here,and this here was the main impact.
We've already cut the reinforcementand impact bar off.
Now, we're going to be pulling onthis frame here, to get it straight, using the three-dimensionalmeasurement system to make sure that everything else is inline where it should be.
>> I'm Gerry Rainford.
I'm a second-year instructor here,at Dakota County Technical College.
Chad's a typical second-year student, wherewe get into different levels of repair needs, from just simple door repair to, well, you cansee here, is a full unibody reconstruction.
Mechanical aspects, as well.
Getting into the air conditioning andother mechanical systems on the vehicle.
This is kind of the way that once we havethe vehicle anchored on our frame rack.
We come through and we can actually do pull out.
We're going to be doing a light pull,this morning on the unibody structure.
We're going to see if we can't repair the rails.
Typically, when they're kinked to thispoint, we would do a replacement procedure.
But we're going to see ifwe can't repair them, today.
So, we'll just kind of talk as we go through it.
And we'll see if we can getthe rails to come out.
So, Chad, please take over from here.
>> All right.
I'm going to be using these towers, here, thatare capable of pulling 10,000 pounds apiece.
Try to get this mash come outon this left frame rail, here.
>> So, once again.
We're going to be pulling at a constantlevel that's going to be straight out, to try to replace the height, thelength, and width of the rail.
So, we're going to keep the directionstraight and at a straight pulling distance.
>> And all I'm doing here, now, is justwatching as I'm pulling, going slowly to find out how the metal's going to react.
Everything reacts different,not any accident is the same.
Everything needs to be takenon with a different viewpoint.
What I'm going to do now, isjust hit this metal, here, to try to relieve some of this stress.
[ Hammering Sound ] And always while you're pulling,what you're going to want to do is check your anchoring points, again, tomake sure that the car is not going anywhere.
Make sure all your chainsand clamps are still tight.
As you'll notice, I'm staying above,not standing behind these chains, just in case anything would happen to let go.
[ Hammering Sound ] >> Let's work the backside of the railthrough here a little bit, as well.
[ Hammering Sound ] [inaudible] target.
One of the things we don't want to do, is we don't want to do additionaldamage as we're pulling.
Looks like we're pulling morefrom the bottom of the rail.
>> Than we are from the top.
So, at this point in time, I think we shouldstop, rehook, and grab a hold of the top of the clamp support and pullmore on the top of this rail.
>> All right.
Both these dozers here are run by the same pump.
So, as I pull it's going to pull them equally.
Let's get some pressure on there.
[ Inaudible Comments ] [ Hammering Sound ] >> Just trying to relieve this stress.
Move the metal where I want it.
>> So, let's get a couple ofhits with this on the backside.
[ Hammering Sound ] Right now, we're concernedwith overpulling on it.
And so, I think we're going to stop.
And we're going to regrab ontothe rail at a different location.
Once you've overpulled and it distortsthe rail, then we've got an issue.
>> We're going to cut this outsideof this rail, here off, this cap.
Just a piece of the sheet seal,here, out of high strength steel.
We're going to pull this out here, sothat way we can get inside here, too, and make proper welds and getthis metal straight, again.
I'm just going to be countered along,drill out these spot welds, here.
And then, cut it here at the seam.
I'll run a line, section it out.
>> Why don't you show them how we know how farwe need to pull by using the measuring system? Then, to explain the measuringsystem, real quick? >> All right.
As we pull out on this stuff here, toget this rail out to where it should be, these targets here measure with this beamunderneath the vehicle, measures the vehicle at all kinds of different points.
Four in the middle of the vehicle, twoat the rear of the vehicle, and then, these here in the front closest to the damage.
This vehicle, this chart here for thevehicle is specific for this vehicle.
What this does here, is it hangs targets fromthe vehicle at specific manufacturing locations.
It measures the vehicle throughout there.
You can tell that our centersection here, is good.
And the back of the vehicle is good.
But up here, we're dealing with offmeasurements on the front end from the impact.
>> We're going to take and when we getthe rails pulled back into a location by the manufacturer's specifications, we'lltake, we'll hammer and dolly all this straight.
And we'll take, we've got new components.
We've got a new reinforcement barthat we'll be welding into place, to replace the structure of the vehicle.
But we'll come through, replace the.
You want to come around over here.
You can see that the radiator condenserhas been damaged in this accident.
And it's completely, we've lost all the Freon.
So, we'll be doing an R and Rprocedure on the condenser assembly.
Then, we're going to evac andrecharge the air conditioning system.
And then, move forward with the restof the mechanical repairs at this time.
In some situations, when you getcomposite intake manifolds, like this, components can come back and dodamage to the intake manifolds, starters, alternators, AC compressors.
We have additional damage deeper in the vehicle.
And this one, we've simplygot a condenser to replace.
What's so, how long will ittake you to do this repair? >> This repair here, will take me probablyabout two weeks to finish, to complete.
Done quite a bit already.
Already had all my parts ordered.
Those have already been checkedin and identified, and made sure that they are the rightparts, so I'm not scrambling at the end of the project to find the correct parts.
I'd say about two weeks; two to three weekswould be a good timeline for this vehicle.
>> Well, thank you, Chad.
I appreciate it, taking your time withthe students and this is what we do here at Dakota County Technical College.
It's a two-year program.
We try to get you ready with the latesttechnology and the latest equipment to make sure that they're ready for the industry.
And so, they can be productive and profitablein today's unibody reconstruction world.
Thanks, very much.
Like this fixture frame bench here that utilizes actual jigs to support the vehicle across its entire platform and place factory components precisely where the manufacturer has designated.
These systems are different than generic systems that simply are reverse engineered and don’t have jig and holding capacity.
Shops that aren’t trained and equipped to properly perform a repair utilizing generic equipment or generic procedures can’t restore the vehicle to the manufacturer’s standards and that doesn’t necessarily maintain the safety rating designed for the vehicle.
You potentially jeopardize the collision energy management system.
The vehicle might not perform the same in a future collision and you could possibly be more injured than you would if the car doesn’t perform as the manufacturer intended.
The second question a consumer should ask is “Where does the body shop’s loyalty lie?”
Is it an independent repair center that relies on satisfied customers to drive business through their door and therefore fixes vehicles correctly? Or is the body shop on the insurance company’s “preferred network?”
Those body shops rely on the insurance referrals and when those body shops utilize cheap, imitation, and savage parts utilize the quickest possible repair times and keep costs as low as possible that generates the next referral.
But that’s a recipe for shortcuts.
The third question, Paul, is “Can the repair shop make this process convenient for me?”
Most consumers today want convenience and ease.
Repair shops that are high-quality repair shops are going to put their customers’ interests first & do everything they can to have a satisfied customer.
That includes scheduling a rental car, scheduling a tow engaging in conversations with the insurance company and making sure the vehicle is fixed right for the consumer.
What is a wheel alignment? How does it effect handling and tire wear? When should I do an alignment? What causes alignments to go out? How would I know if my alignment is out? A wheel alignment is nothing more than setting the angle of the hub/wheel so it tracks in the right direction. Most vehicles have four-wheel alignments, meaning each of the four wheels is separately aligned. Your basic alignment consists of three angles: camber, caster and toe-in. Camber is the tilt of the tire when viewed from the front of the car. Positive camber means the top of the tire is tilted away from the car. Negative camber means the top is tilted in. Camber has a lot to do with cornering performance. Too much negative camber will wear the inside of the tires prematurely. Too much positive camber will wear the outside tread. Caster is the inclination of the front spindle. Picture the angle of the forks on a bike top to bottom. When the caster is out, it creates a pull or wandering condition and sometimes a slow responding steering wheel. Toe-in is measured in inches or degrees. Viewing from the front of the car, it is the difference between the front and rear center-line of the tire. Toe-in means the fronts of the tires are closer together. Toe-out means, the fronts of the tires are farther apart. Toe-in or out has the most effect on tire wear. There is a lot more to suspension alignment, especially if you push your vehicle on the track. The modifications you make on your suspension are just the beginning. Once you start down this road you will be concerned with things like bump steer, weighting (vertical load), preloading, tire traction versus tire load, and more. Now you're thinking under-steer, over-steer, tire compound, sway bar design, and other topics that can be covered in a later article. For now, just remember to have your vehicle aligned every 10,000 to 12,000 miles in normal driving conditions.If you accidentally hit a curb, or drive through a nasty pothole or other road obstruction, that would be a cue to have your car's alignment checked more often. Proper alignment is good for your car. It will save unnecessary wear on your tires. It will ensure that your vehicle is giving you the handling the factory designed the car to have. And, most importantly, a properly aligned car is safer and more fun to drive.