Each handpiece is inspected, repaired and tested in accordance with manufacturer's standards and specifications We guarantee all material and workmanship for the full period. During the life of the warranty, we will repair or replace without charge, any defective parts we installed.

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Dental Handpiece Repair in South Texas and Nationwide

Handpiece Terminology

"E" Type Motor
A motor with a standardized male fitting (connection) that accepts attachments with the matching female connection.

Air Motor
A slow speed handpiece without internal reduction gears or attachments, usually rotating at speeds near 20,000 rpm.

A nose cone, angle, or electric speed increasing handpiece that quick disconnects on and off the front of a motor to provide various bur holding options.

Auto Chuck
A mechanism enabling the operator to change a bur without the use of a wrench, by pressing a button or raising a lever.

A steam sterilizer which destroys all living organisms through the medium of heat and pressure. Temperatures are raised to 270-275 F while the pressure is raised to 30 psi.

A rotary dental instrument, which when placed in a handpiece is used to cut or carve tooth structure. Burs come in a variety of shapes and sizes and can be made of high speed steel, carbide, or diamond coated material.

Canister Turbine
A closed cylinder which houses a rotating turbine assembly inside the head of the handpiece. Designed for easy replacement.

Ceramic Bearings
A handpiece bearing that incorporates ceramic balls, usually silicone nitride, instead of steel. Ceramic balls are harder but lighter than steel, thereby providing a longer wear life with less stress on the bearing retainer. Ceramic bearings can be utilized in a lubricated or lube free mode.

A sterilizer which uses a chemical to generate chamber pressure instead of steam. The absence of water in the process reduces rust and oxidation of instruments.

Chip Air
Air supplied through the handpiece from the dental unit tubing to the cutting surface to cool the tooth or disperse the water spray, while flushing away residual material resulting from the removal of tooth structure.

The part in the handpiece turbine used to hold the bur.

Another word for the chuck mechanism.

Attaches the handpiece to the dental delivery unit that supplies air and water to the handpiece. There are four types of standard U.S. connectors. They include the 2, or 3-Line (also called a Borden) and 4-Line. The 4-Line (also known as a Midwest) is the most popular connector. In a 4-Line connector, the holes are (1) drive air, (2) chip air, (3) water, and (4) exhaust. Sometimes a fifth line or hole is added for a fiber optic bundle. A newer type of connector, 6 Pin, is now available which provides an electrical connection for a fiber optic light bulb. Hole size and location are indicated by a standardized ISO specification.

Contra Angle
The front section of a handpiece which changes the desired angle to provide better bur access and visibility to the operator during use.

Refers to the water spray directed at the bur to cool the tooth when cutting.

Doriot or Universal Angle
Any angle that operates on the front of a nose cone that has a protruding shaft designed to fit into the nose cone chuck.

Drive Air
The compressed air used to rotate the turbine in a dental handpiece.

End Cap
The cap, or cover which is removed to install the turbine.

The air discharged from a dental handpiece after spinning the turbine.

Fiber Optic Handpiece
A handpiece through which a transparent fiber or cellular optic bundle transmits light to illuminate the oral cavity.

Friction Grip Chuck
A chuck which holds the bur strictly by friction generated from an internal spring assembly. The bur is simply pushed in and out of the chuck with a special tool using force to overcome friction.

A handheld device which engages rotary instruments for cutting, cleaning or polishing the teeth. A handpiece can be belt-driven, pneumatic (air or gas driven) or electric.

High Speed Handpiece
A handpiece which operates at a speed greater than 100,000 RPM.

Jacobs Chuck
A mechanism which utilizes a wrench to tighten the chuck. This design incorporates slots which create jaws that are compressed onto the bur shank when tightened with the corresponding wrench.

Latch Angle
An attachment that holds a specialized bur which is mechanically retained by the use of a swinging hook that engages a recess in the bur shank.

Light emitting diode bulbs used in dental fiber optic applications, either in the handpiece, the handpiece connector, or in the fiber optic generator to provide a brighter light through the handpiece.

Low Speed Handpiece (or Slowspeed)
A handpiece which operates at speeds ranging from 5,000 to 20,000 rpm.

Lubricant or Oil
A liquid applied to moving parts of a handpiece or attachment in order to reduce friction, heat, or wear, or applied to surfaces in close contact to prevent them adhering to one another. May also include a solvent for cleaning.

A straight attachment used with a slow speed motor which holds a lab type bur (3/32" shank) or any standard doriot attachment.

Prophy Angle
An angle that holds a brush or cup containing prophy paste used by a hygienist for cleaning teeth.

A handpiece attachment or fitting designed to allow easy separation of the handpiece from the supply tubing.

Replacement Cartridge
Another name for a high speed turbine, usually self contained to allow easy replacement. 

Rotary Vane Motor
A type of low speed motor utilizing small vanes instead of a turbine to trap drive air in a rotor assembly to generate rotation.

Revolutions Per Minute. A unit of measurement indicating speed.

Straight Handpiece
Same as a low or slow speed handpiece. Often refers to a handpiece with a nosecone permanently "fixed" to the motor.

Instead of threads at the rear of a handpiece, the swivel is usually a separate part that threads into the supply tubing and incorporates a quick disconnect. Designed to allow the handpiece to rotate where it attaches to the air supply tubing in order to reduce fatigue on the operators wrist.

Located in the head of a high speed handpiece, the turbine holds the bur or cutting instrument while rotating from high pressure compressed air. A turbine consists of five components: spindle; chuck; impeller; bearings; and two "0" rings.

Care of Maintenance Free Handpieces 

Some handpieces are maintenance free, or Lube Free®, meaning the bearings do not require routine lubrication. However, the push button chuck mechanism is made up of tiny, moving, metal parts that do need cleaning and lubrication to ensure safe performance, and extend the life of the chuck mechanism. According to Star Dental® it is necessary to clean the turbine autochuck once a week. 

We recommend the following procedure:

Place a drop of oil on the end of a proxy brush, or in the chuck opening

Insert the proxy brush into the chuck opening

Slide the brush in and out several times to loosen and remove any accumulated buildup

Spray air from your syringe into the chuck to expel any loose material

Handpiece Operating Tips

Please check to ensure that your delivery unit air pressure is set to the manufacturers recommended pressure. Most handpiece drive air pressures should not exceed 35 PSI. The air pressure should be measured right at the handpiece connection to the tubing to get the most accurate reading possible. Increasing air pressure will not increase handpiece performance due to increased back pressure, but may damage the turbine.

• Never tighten any manual chuck without a bur in place, or you may damage the chuck.

• Never operate any handpiece without a bur securely in place.

• Do not depress the push button of a handpiece during operation. This may open the chucking mechanism and release the bur.

• Do not use the handpiece to retract the patient's cheek or other soft tissue. This could generate excessive heat if the end cap is depressed when turbine is running.

• Before operating a handpiece and/or component, always carefully read and follow the manufacturer's instructions.

High Speed Handpiece Maintenance Procedures

Almost all manufacturers are currently recommending that you clean and lubricate the handpiece before every autoclave cycle.

• Flush or purge the handpiece before removal from the air supply tubing.

• A brush and warm water may be used to clean the outside of a handpiece before sterilization.

• Never wash, spray, or immerse any handpiece in cold sterilant or chemical disinfectants. This may damage or corrode some metals.

• The handpiece turbine should never be removed for cleaning.

• The quick disconnect connections may be cleaned with alcohol and a cotton applicator. Do not use cold sterilants as they may damage O rings.

• The fiber optic surfaces may be cleaned using isopropyl alcohol on a cotton applicator.

• Cleaner/lubricant should be sprayed or dropped ONLY into the drive air tube at the base of the handpiece, which leads to the turbine. The exhaust hole does not connect to the turbine. The drive air tube is the smaller of the two larger tubes, and is usually the shorter one.

• Always run the handpiece with a bur in place for 20 seconds after lubrication to expel any excess lubricant.

• Contra angles should be detached and taken apart for lubrication about once a week.

Handpiece Maintenance, Operation & Care

Handpiece maintenance can prolong the life of your tools.  Here are some things you can do to improve the quality of your handpieces and leave them less likely to need repairs.  We have provided you with some tips on how to maintain your own tools and keep them working like new: