2015年7月9日星期四

corded&cordless power tool electric tools FAQs Frequently asked questions

FAQs

Frequently asked questions of corded&cordless  power tool electric tools 





Questions and answers on core drilling

How can I prevent the core bits from becoming blunt or overheating when drilling?
Remember good lubrication is essential. Optimal results can be gained with internal cooling via the core bit with a standard drill emulsion.

What should I do if the core bit is chattering?
Check whether the core bit is still sharp.
The guides must be set to have no play on the machine. If this isn't the case, please send your tool to customer service.
Carefully increase the feed force until the chattering decreases or change the speed if possible. Use caution as too much feed force may result in the tool lifting up.

What do I need to change if core bits are breaking?
Check whether the core bit is still sharp.
The guides must be set to have no play on the machine. If this isn't the case, please send your tool to customer service.
Reduce the feed force and change the speed if possible.

How should the tool be set up?
The surface being worked on must be clean and free of rust, scale or paint.
The entire magnetic foot must sit on the material to be drilled.
The material must be at least 12 mm thick and magnetisable.

What problems can occur, if one or more of the above requirements are not fulfilled?
The result could be the machine moving on the material causing cutter breakage.

What should I do if the material isn't magnetisable or is thinner than 12 mm?
You'll need a vacuum plate and pump, or a suction plate. These items are described in the catalogue.

Why should I use a centering pin?
To find the exact centre of the drill hole
To eject the slug.

What should I note when drilling?
Position the drill with care and drill through in one go wherever possible.
Don't switch the tool off during drilling, as doing so could cause the core bits to break loose.
Before the drill is withdrawn from an incomplete hole, let the tool run for a short time at the bottom of the hole without removing any material. This will break the chips forming at the bottom of the hole.
Always withdraw the drill from the hole with the tool running clockwise.

What action should I take if the core bit gets stuck?
Switch off the motor. Inspect and carefully take the appropriate action to remove the cutter.

What problems can be experienced with core drilling?
High temperatures near welded seams or separating cuts made by cutting torches may result in structural changes, which can cause the core bit to wear very quickly.
In the case of overlapping holes, the core bit may catch at the transition between the existing hole and the new one, causing the core bit to jam or even break.

What is the proper way to store and transport core drills?
Store and transport the core drill in its original packaging or at the intended position in the transport box.
Core drills should be protected from impact, to prevent damage to the core drill or cutter.



Questions and answers on battery care

How should I store my batteries?
NiCd / NiMH batteries should only be stored for long periods in a fully charged state. Recharging is needed at least every 3 months as the batteries will self-discharge. Lithium-ion batteries shouldn't be stored flat or fully charged for long periods. Extensive testing has found a capacity of 40...50 % and low temperatures (but not below 0°C) to be optimum for storage. Ideally they should be kept at 5°C to 10°C. Recharging is needed at least every 12 months as the batteries will self-discharge.
If you are not going to use it for a long time, should you remove the battery from the tool?
Yes. Even when the device is switched off, a little current may flow which over time will result in total discharge. This will damage and in extreme cases destroy the battery.

What is self-discharge?
Due to self-discharge, if not used for 3 months an NiCd/NiMH battery will lose around 60...80% of its charge. The figure for lithium-ion batteries is 3...5% a month. Self-discharge is temperature-dependent and increases with temperature, with room temperature being ideal.

What is total discharge?
Total discharge means squeezing out the last drop of current from a battery. The battery's voltage then falls to 0 V. If this status is maintained, chemical reactions occur at the electrodes in the battery which render them partially or totally unusable. As a result, the battery loses huge amounts of capacity and in extreme cases cannot be charged any more. You must therefore avoid discharging batteries below a type-dependent final discharge voltage and then recharging them as quickly as possible. Lithium-ion batteries and lithium-ion polymer batteries should never be totally discharged. As a rule of thumb, you should recharge a lithium-ion or lithium-ion polymer battery when it still has around 10...20% of its capacity. Good Li-ion batteries always have elaborate protective and/or monitoring circuits in the battery pack to prevent total discharging / overcharging and the possibility of explosion.

Within what temperature range should I use my batteries?
NiMH batteries are not suitable for use at temperatures below 0°C. They show signs of significantly reduced capacity even at close to freezing point and are totally unusable below around −10°C. NiCd batteries are suitable for use down to -10°C. Lithium-ion batteries can be used in a temperature range of between -10 °C and +55 °C, but should only be charged at a battery temperature of +5...+45°C. The ideal battery temperature range is room temperature. A temperature sensor in the battery ensures that rapid charging does not occur outside this range.

What is the battery service life?
NiMH batteries can be charged 400 to 700 times, NiCd batteries around 500 to 1,000 times and Li-ion batteries up to 1,000 times (depending on capacity). These figures are however only attained under optimum conditions. Depending on how the battery is treated and cared for, lower figures may apply. Battery capacity decreases over the battery's life. Batteries with less than 70% nominal capacity are generally considered to be worn out.

What does memory effect (for NiCd technology) or lazy battery effect mean?
The battery records how much it has been used. If the battery isn't fully discharged before charging, small crystals form on the electrodes and make it harder to charge. If you fail to fully discharge the battery several times in a row, you will experience shorter and shorter availability times. With NiMH technology, you might experience a lazy battery effect, similar to the classic memory effect. Lithium-ion batteries and lithium-ion polymer batteries can and may be recharged at any time. These batteries do not experience any kind of memory effect, but you should avoid charging for short periods too often. Fully charging in several stages (with or without partial discharge in between) is also not harmful. Lithium-ion batteries and lithium-ion polymer batteries should not however be fully discharged. As a rule of thumb, you should recharge a lithium-ion or lithium-ion polymer battery when it still has around 10...20% of its capacity. A new lithium-ion battery does not have to be charged and discharged several times to attain its full capacity. If the initial charge is undertaken correctly, the battery will have a full capacity from day one. Do not attempt to force more charge into a full battery block by unplugging and reconnecting the charger - it will only damage the batteries.

Can I reverse these effects?
If the capacity of the NiCd battery decreases over time, it can be restored by reconditioning: fully discharge NiCd battery (don't go quite as far as total discharge) (by loading, i.e. in use), fully recharge and repeat several times. Each time this cycle is repeated, it improves the power output. A refreshing device is needed for NiMH batteries.

Can batteries be repaired?
Batteries cannot be permanently repaired to a high quality. Even if other providers claim that they can repair batteries cheaply, the results will be short-lived because the new cells are not matched to existing components. FEIN and its agents offer long-term quality. We always replace defective batteries.
The following rules should be noted when caring for your lithium-ion batteries if you want to maintain the performance of the energy store for as long as possible:
The first charge is crucial. Fully charge the battery before using it for the first time.
Each battery only has a limited number of charge cycles. Don't therefore recharge the battery at every opportunity. Instead use it until it is almost flat (10...20% of charge).
If the battery is discharged below its nominal voltage, this can trigger processes which damage or destroy the battery. FEIN batteries are therefore fitted with electronics which warn the user and shut down the device before total discharge can take place.
Frequent overcharging can also permanently damage the battery. The charger therefore automatically finishes the charging process as soon as the battery is fully charged.Do not attempt to force more charge into the batteries by unplugging and reconnecting the charger. Such action will not produce a higher charge - it will only damage the batteries.
Charging should generally only be undertaken at room temperature (around 18 - 21 degrees). Avoid charging a cold battery as it damages the cells. Always warm the battery up to room temperature before charging, especially when it is cold outdoors in winter.
High temperatures also damage the battery. Never leave the battery, and preferably not the entire tool box, in the car or direct sunlight on hot sunny days. At temperatures above 60 degrees Celsius, the Li-ion battery permanently loses capacity.
Lithium-ion batteries shouldn't be stored flat or fully charged for long periods. Extensive testing has found a capacity of 40...50 % and low temperatures (but not below 0°C) to be optimum for storage. Ideally they should be kept at 5°C to 10°C. Recharging is needed at least every 12 months as the batteries will self-discharge.
A battery which is not being used should be stored in a cool but not cold place. Even when not being used, batteries lose energy. The Li-ion battery loses 3...5% of its charge a month.
If a lithium-ion battery is not used for a long period, it should be recharged after 12 months at the latest otherwise it will be irreparably damaged.
Old, used batteries must of course be disposed of in an environmentally friendly manner.

power tool application



power tool application

durable power tools for trade, industry and the demanding handyman.

Sanding, polishing and drilling metal.

Wherever metal constructions are built and worked on,  application solutions prove their incomparable power.

Solutions in Metal  

electric tools area of application

Stainless steel machining
Heavy-duty grinding
Metal drilling and core drilling
Metal construction

the specialist for solutions in metal applications.

From rough sanding to mirror polish, in steel construction, shipbuilding or in foundries, for precise holes with manually operated rotary drills or semi-stationary core drilling systems and wherever metal constructions are produced, application solutions prove their incomparable power and robustness.


Stainless steel surface processing

Stainless steel shines with possibilities. Make the most of them with  tools and expertise.


Stainless steel machining

 specialised in the surface processing of stainless steel for many years. Sheets, pipes and profiles can all be given a sparkling mirror polish with power tools such as polishers and pipe belt sanders as well as stationary belt grinders . For individual work steps there are selected system accessories designed to help you work efficiently.

User-friendly
Low-vibration
Easy to use



Heavy-duty grinding

The industrial grinding and cutting of metal workpieces is one of  zuoerd's particular strengths. Our assortment ranges from ergonomic compact angle grinders with safety equipment to the most powerful 2,500W angle grinders and GRIT stationary belt grinders. Also resilient grinders with high-frequency technology which are used in the toughest conditions, for example in metal and steel construction, shipbuilding and foundries, where standard frequency machines cannot cope.


Metal drilling and core drilling

Whenever you need to drill accurate holes in metal workpieces,ZUOERD has the right product for the job. Whether it's with powerful hand-guided rotary drills or convenient battery-operated tools. The compact semi-stationary core drilling systems are used for larger diameters of up to 65 mm. Everything is perfectly coordinated, from the machines to the extensive system accessories such as core drills and tappers.

Metal construction

Wherever metal constructions are built, power tools are the first choice. Long-lasting and therefore value for money and with unrivalled robustness, angle drills, angle grinders, straight grinders, sheet metal shears, nibblers and self-drilling screwdrivers do their job with power and reliability.


Interior – drywall construction, fittings and sanitary applications.
The product range contains the perfect tool and coordinated accessories for all areas of interior work.


Solutions in Interior workarea of application


Drywall construction
Surface processing of wood
Assembly of wood
Fitting on roofs and façades
Interior fittings and renovation


the specialist for solutions in interior construction.

No matter whether you're making a large number of screw connections in drywall construction, fitting wood with subsequent surface processing, installing or dismantling heating, air conditioning and ventilation systems or of course undertaking interior work anywhere from the cellar to the attic, you'll find the perfect  tool for each interior requirement. With the professional quality you'd expect.

is the universal system for interior work and renovation. Experience its versatility and durable quality.


Drywall construction

Making screw connections in non-load-bearing walls and ceilings typically involves large quantities of screws, placing very high demands on the power tool. Whether you're working in plasterboard, mineral fibre board or wood,  screw guns with or without magazine unit always deliver optimum results.


Surface processing of wood

In addition to a perfect sanding pattern, very low dust levels in the surrounding air and fast working progress, when it comes to surface processing users also need power, reliability and innovative solutions. The eccentric sander or the  Combo kit, in combination with  dust extractors, allow you to sand various materials with virtually zero dust.

Assembly of wood

 drill/drivers and universal screwdrivers have been in heavy-duty use with joiners, interior fitters and assembly workshops for many years. They offer unrivalled precision and long service lives. The powerful high-performance motors and practical coupling systems enable you to work quickly when drilling and screwdriving in wooden elements.


Fitting on roofs and façades


With  power tools, corrugated and trapezoidal sheets and façade systems can be machined efficiently.  nibblers are perfect for cutting corrugated and trapezoidal sheets in roof and façade construction. Special high-speed screwdrivers for self-drilling screws ensure reliable results when working with self-drilling screws or self-drilling seal screws.



Fitting, converting and dismantling in the automotive sector.
If you're looking to perform automotive restoration or boat maintenance tasks,  tools deliver the full power you need. From the start to finish.



Select your area of application Solutions in Automotive


Glass removal for vehicles
Special vehicle construction
Vehicle repairs
Industrial volume assembly


the specialist for solutions in automotive applications.

Replacing windows, fitting, converting or dismantling car body sheets, restoring used or new cars and repairing and restoring boats - is and remains your specialist in application solutions in the automotive sector.

quality:
Precise
Ergonomic
Durable

Marine range

Proven in countless industrial applications. The first choice for interior work, maintenance and repairs on boats.


Glass removal for vehicles

Bonded vehicle panes can be replaced quickly, reliably and therefore cost-effectively with the Supercut Automotive. has put together special accessory sets for all the most common vehicle types and applications. With extensive practical equipment for automotive workshops, automotive glaziers and cargo.


Special vehicle construction

power tools can be used to accomplish most tasks involved in building, converting and finishing special vehicles. Drills, angle grinders, self-drilling screwdrivers, eccentric sanders and cordless screwdrivers may be used depending on the material and machining requirements.

Vehicle repairs

For repair and maintenance work on vehicles, offers a range of extremely high-performance power tools. Polishing machines for overhauling used and new cars with high-quality system accessories tailored to the particular job. Plus the  Supercut Automotive and a variety of drills for a wide range of body panel tasks.

Industrial volume assembly


Industrial volume assembly requires precision screw connections. meets the requirements of the automotive industry as set down in ISO 5393 and VDI / VDE 2647. The non-mains-dependent Accutec screw guns with mid-mounted handle and baton offset screwdrivers are designed for continuous industrial use and are used in the production facilities of prominent vehicle manufacturers.






Power Tools Hand Tools Chain Saw Petrol


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committed to the safety of the end users. has built - in safety feature on the tools to protect the professionals using  tools. Ken carries our awareness programs among the end-user on safety issues educating them on the correct usage of the tools as professional.

» Noise -  tools are designed to produce lower levels of noise.
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» No fused no excuse.
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» Reliability – the continuous performance.

2015年7月8日星期三

How to use electric drill power drill corded drill

2Ton Electric Scissor Jack 12v w Impact Wrench automatic Electric Car Ja...

How to install scissor car lift jack tire repair tools?

How to install scissor car lift jack tire repair tools?

Power tools core applications electric drill rotary hammer application

Power tools core applications  electric drill rotary hammer application

stone processing
in the case of stone processing, by combining the bad working conditions and with different requirements of such crafsmanship as cutting, polishing, hole-forming and craving etc. for tools.
we have developed an entirely new series products, e.g. stone cutting machine, angle grinder used especialy for stones.
1.stone hole-forming,cutting for dry and wet use
2.stone polishing, cutting, carving
3.stone craving, straight grinding

metal processing/metalworking
electric drill with a high rotation speed, saves both time and strength while ensuring the smoothness during the process object go trough the hole. angle grinders featured strenth and high rotation speed are widely used in the area of metal processing, e.g. automobile manufacturing, mold manufacturing, engineering machinery, aviation, ship manufacturing, track communications, wind and electricity, petrochemical insustries.
1. metal hole-drilling, threading
2. metal polishing, cutting

construction/ concrete construction
strong and durable, electric tools wildly used in the area of construction for structure destroying, drilling, cutting, datum positioning, gradient positioning, floorage measuring ,leveling and balancing.
1. wood drilling
2. bolt fastening
3. concrete drilling
4. leveling of doors and windows
5. distance measuring

house furnishing
power tools are mainly used in the area of house furnishing for reconstruction, installation, grooving, drilling, sheet milling, cupboard installation, leveling and balancing.
1. concret reconstruction
2. wall grooving
3. blanking
4. cupboard installation

furniture manufacturing/ woodworking
electric tools used for wood surface processing, including craving machines for shaving different smooth surfaces, highly effective sanders for polishing, and lithium electric drills for installation and fastening.
1. sanding of surface of wood
2. screw fastening
3. wood sawing
4. craving and deflashing of wood ware

FASTENING SOLUTIONS
Our technology-based engineered systems deliver innovative and integrated solutions to virtually any manufacturing challenge in the world. From automotive assembly and industrial construction to computers, mobile telecommunications and appliance manufacturing, we deliver the right engineered fastening and assembly solution, every time. This is why we are a global leader, and trusted by some of the world’s leading manufacturers.

 Engineered Fastening systems are an integral part of cars, trucks, planes, trains, appliances and electronics around the world.
For every manufacturing process that requires a unique and customized fastening solution, we are there with the expertise and the experience to get the job done.









How do Hammer Drill Works? HAMMER DRILL MECHANISMS. How do IMPACT WRENCH works?

Hammer Drill, How It Works

Hammer drills have been around a long time. Hammer drills have been the choice for many operators when drilling into materials such as cement, concrete, brick, stone, block, and other masonry materials. The way the hammer drill works is to hammer as the drill bit is rotating. In theory they pulverize the hard material under the bit as the bit churns into the surface. In reality, the bit cuts into the surface with the help of a vibrating chuck. A masonry bit is used for drilling. The bits are exposed to tremendous friction as the operator bears down on the drill. The drill bit at the surface gets extremely hot. So, the very tip is made out of carbide steel by many manufacturers. Even though the tip is carbon steel, the tip of the bit get so hot that they discolor. If the tip of the bit is allowed to “blue”, the tip becomes brittle. Soon the operator notices chips in the bit tip. The bit tip then begins to break and drilling becomes hindered. In a short time, the operator notices that progress has stopped. There is a way to minimize this problem. Start drilling with a small bit first. Then drill the hole with progressively larger bits until the correct diameter is achieved.
HAMMER DRILL
PICTURE 1
Picture of a typical hammer drill.
OPEN HAMMER DRILL BODY
PICTURE 2
Picture showing the insides of a hammer drill, labeling the various parts.
The picture above shows the various mechanisms inside of the hammer drill. In the center is the motor inside of the motor housing. In front of the motor is a cooling fan attached to the motor shaft.A bearing in front of the motor shaftsupporsthe fan.A rear bearing ishoused in black at the right side of the motor.

HAMMER DRILL MECHANISMS
PICTURE 3
Picture showing a clear closeup view of a hammer drill, labeling the internal parts.
In picture 3 above, the motor shaft is shown passing through the Hammer Mechanism body where there are bearings that support the shaft. The shaft ends in a Worm Gearthat transfers motion to a large reduction gear. In the center of the Large Gear is attached a second shaft which runs out, and is attached to, and drives the chuck. On the top of the drill is a rotary switch. The rotary switch selects one of two modes of operation. Position right, counterclockwise, selects the drill only mode. Position left, clockwise, selects drilling with hammering. There is a pin shown attached to the wedge and rides in a slot in the rotary switch. When the rotary switch is turned clockwise, the wedge moves downward and forces the Hammer Mechanism forward. This engages the hammer action.
HAMMER DRILL HAMMER MECHANISM
PICTURE 4
Picture showing the internal hammer mechanism of a typical hammer drill.
In the picture above, the Large Gear was removed from the drill and stood on the chuck. The drill body was stood on its end, and the Hammer Mechanism was moved out of alignment for viewing. Both the Large Gear and the Hammer Mechanism are ribbed. The Hammer Mechanism is stationary. The Large Gear turns and bumps along producing the hammer action.
HAMMER DRILL SPRING
PICTURE 5
Picture showing a closeup view of the main spring, large gear, hammer mechanism, and main worm gear of a hammer drill and functioning together.
The spring in Picture 5 above holds tension, allowing the hammer action. The shaft moves left and right causing the chuck to hammer the drill at the material while turning.
The problem with this kind of a design is the hammer mechanism. As can be seen in Picture 4 above, one ribbed surface is rotated against a stationary ribbed surface. At slow speed, the ribbed surfaces can actually fit into one another. As speed increases, the ribs have a tendency to walk or not fully engage as the Large gear turns or the spring weakens with age. This results in a shorter stroke of the chuck. In fact, at high speed, this hammer action is more of a vibrator than a hammer.
Hammer drills are notorious for drill bits coming loose while drilling. The vibration made by the cam causes the chuck to loosen on the drill bit.
There is an alternative to using a hammer drill that produces better results. An impact wrench contains a hammer that works very well in this application. For one, it has a much better hammer. Number two is the fact that under pressure it slows down minimizing heat buildup. Number three, the pneumatic version does not get hot as electric drills do. Unfortunately, you cannot attach a drill bit to an impact wrench directly. You will need a special chuck called a Cowan Chuck.

IMPACT WRENCH, How It Works, Interesting Things To Know
AIR OR PNEUMATIC TYPE
PICTURE 6
Picture of a typical pneumatic impact wrench.
ELECTRIC TYPE
PICTURE 7
Picture of a typical electric impact wrench.
INSIDE OF AN AIR IMPACT WRENCH
PICTURE 8
Picture showing the various parts of a pneumatic impact wrench in an exploded view format. Each part is labeled for instructional purposes.
In Picture 8 above, a pneumatic impact wrench is shown disassembled. Air is forced in the adapter and up through the handle.In Picture 9 below, the housing is turned on end so we can look inside. There are 2 holes inside on the bottom. Air is forced through one of the 2 holes determined by the position of the FORWARD/REVERSE CONTROL BUTTON/VALVE. Air passes through a hole in the mechanism to the rear plate. The rear plate then channels the air into the ROTOR CYLINDER where it comes in contact with the ROTOR BLADES. The blades sit loosely in the rotor.Gravity causes at least 1 of the 6 blades to extend out of the rotor that catches the airflow. This begins to turn the rotor. Centrifugal force moves the rest of the blades partially out of the rotor where they glide along the inside of the ROTOR CYLINDER. This aids the turning of the rotor. The central shaft of the rotor passes through a bearing housing. The end of the shaft has a spline in it. The spline forces the HAMMER CAGE and HAMMER to rotate with the rotor (See Picture 10 & 11.). The HAMMER rocks on a pin going through the upper part of the HAMMER and its HAMMER CAGE. Notice that the hammer has a cut out on the right side. That is because a rocking lever, overly slotted, rides there. The lever, rocking back and forth, causes the hammer to rock in and out.
IMPACT WRENCH HOUSING INSIDE VIEW
PICTURE 9
Picture of a pneumatic impact wrench internal housing showing the air channels for reversing the rotor direction.
IMPACT WRENCH HAMMER - 2 VIEWS
PICTURE 10
A good closeup picture showing the impact wrench internal rotary hammer and how it works for instructional purposes.
IMPACT WRENCH INSIDE CLOSE UP
PICTURE 11
A closeup picture of the impact wrench hammer mechanism and how it interfaces with the anvil and motor mechanism.
Here is how it works (refer to pictures 8, 10& 11). With no air pressure applied, the ANVIL is relatively free to turn in either direction. Application of air pressure forces the rotor to turn. The spline forces the rocker lever to move. This forces the HAMMER and HAMMER CAGE to rotate. The HAMMER rocks into the ANVIL’s slot. The ANVIL starts turning. As long as air pressure is applied, the HAMMER tries to remain engaged into the ANVIL’s slot.
What happens when the ANVIL meets resistance as with a bolt and socket? Pressure builds up in the ANVIL’s slot. The HAMMER has a matching grove in it so that it will fit into the ANVIL’s slot when rocked. It’s grove is slightly rounded so that when a lot of reverse pressure is applied, it will slip out of the grove. The HAMMER, CAGE, and ROTOR make 1 full revolution. Pressure is still applied. When the HAMMER meets the ANVIL’s grove again, it slams in giving a hammer blow to the ANVIL. If the ANVIL does not start moving with the HAMMER, CAGE, and ROTOR, the HAMMER slips out of the grove again. The process then repeats itself.
A hammer action like this is great for bolts and nuts. With a drill chuck attachment, this device would make a good hammer drill. Why? An operator would apply some downward pressure. That gives us a “Y” vector. The hammer/rotating action gives us an “X” vector. Combining the 2 vectors gives us a resultant “Z” vector, as shown in the VECTOR DIAGRAM below. The resultant “Z” vector is longer than either the “X” or “Y” vectors. This means that the resultant force exerted for drilling is greater than the force of the impact wrench alone. That with very little operator pressure, the resultant force is never less than the force generated by the impact wrench. A hammer drill can be made from an impact wrench with the use of an Impact Wrench Drill Chuck. Such a chuck, called a Cowan Chuck .
X,Y, AND Z CHART
PICTURE 12
Picture of a gragh showing the X and Y force vectors generated by the impact wrench and its resultant Z vector.
IMPACT WRENCH DRILL CHUCK
PICTURE 13

Picture of the Cowan Chuck, an Impact Wrench Drill Chuck, and an Impact Wrench Accessory.

ZUOERD electric demolition hammer drill, breaker drilling

How a Power Drill Works Care and maintenance of a power drill

How a Power Drill Works

If you have a power drill, you can step up your capacity for fast, accurate work. By making use of attachments, you can make jobs such as sawing and sanding quicker and easier. You may eventually want to go a stage further and invest in more sophisticated power equipment for your workshop. Whatever the extent of your power ‘armoury’, you can learn from this section on Power Tools how to get the best from it.

How a drill works

Electrically powered tools suitable for home repairs and improvements range from the basic electric drill to more specialist and costly items such as radial arm saws and mechanical routers.
From the average householder’s point of view, the most satisfactory investment for general work and repairs is an electric drill power unit which can be used to drive a range of attachments. These can be bought as and when the need arises.
Drills are usually graded by their chuck capacity or, in other words, the maximum diameter of twist bit shank which can be secured in the chuck. This is usually 6.5 or 8 mm (¼ or 5/16 in) but can be greater on heavy-duty professional models.
The figures below, which give suitable drill speeds for various jobs, show that two-speed or variable-speed power units are more flexible than the less expensive single-speed units and are thus a wiser investment.
correct drill speeds
The cost of a single-speed unit together with a speed-reducing device is usually higher than for a variable-speed drill. Reducers for single-speed drills can be either electronic or mechanical.
Electronic reducers are fitted to the supply cable and allow the required speed to be selected by knob or dial control.
Mechanical reducers are fitted to the tools themselves, either instead of or into the chuck. Neither is as convenient to use as a variable-speed drill.
Most power tools are now fitted with double-pole switches which cut off both live and negative cores in the supply cable, thus completely isolating the motor electrically. When the switch is pressed to the `on’ position, current passes to one of the field coils and from there to the armature via the carbon brushes and commutator.
The armature main shaft speed of 20,000 revolutions per minute is geared down to approximately 3000 rpm. This reduction of speed increases the ‘torque’, or driving force. A fan is fitted internally to lower working temperatures.
how a drill works
Light-duty sleeve bearings are fitted to some power tools but better-quality models have needle or ball bearings, which are more suitable for continuous use.
Electrical connections in the motor are usually welded. The soldered connections on some models may fail if excessive heat or sparking occurs, for instance as a result of overloading or worn or clogged carbon brushes.

Care and maintenance of a power drill

A drop in speed while a power tool is in use, usually accompanied by a lowering of motor pitch, is a sign of overloading. To avoid the damage which this can cause, remove the tool from the work and run it at full revs for a few seconds before using it again This not only avoids abuse but also helps to reduce overheating.
Automatic cut-outs, which come into operation when overloading occurs, are fitted on some models. After a stoppage, these should be reset to ‘on’ only after removing the tool from the work.
Examine the carbon brushes periodically. These can be cleaned with turps substitute and, if necessary, with a very fine ‘0000’ abrasive paper. To ensure correct replacement, note the position of the brushes before removing them. Replace badly or unevenly worn brushes and have the entire tool overhauled by the manufacturer or his agent.
Undue commutator sparking indicates In electrical fault — leave this repair to a qualified expert.
Occasionally open up the gearbox, clean out the old grease and repack with the lubricant recommended by the maker.
Double-insulated tools are quite safe to use with the two-core cables provided, but tools with three-core cables must always be connected to a three-pin plug and socket.
Always use a drill with the cable hitched over your shoulder, out of the way.
Unless chuck keys are kept in the holders provided or tied to the supply cable, they are easily mislaid. A spare key is an invaluable accessory.

power tool electric drill application


Perfect technology from the inventor of the drill
drills embody the experience and quality gained from over 10 years of development – for perfect drilling results in all industries.


Metal
Interior work
Automotive


area of application



We are the experts when it comes to drills.  encompassing 10 years of experience in enduring premium quality, whether rotary drills, hammer drills or cordless drill/drivers. There are drills for almost any situation, with different sizes, shapes, drilling diameters of up to 38 mm and speeds adapted precisely to the material. These tools are perfectly tailored to the work you do, the standards you need to meet and your way of working. Ergonomically shaped, lightweight, easy to operate and extremely durable, they are ideal for professional users. The optimised range of accessories and special system components underline the ingenuity and experience that goes into a  drill.

how to use mixer drill, paint & mud mixer

Professional ZUOERD Power Tools for Trade & Industry


Professional ZUOERD  Power Tools for Trade & Industry
The Power Tools division  is the world market leader for portable electric power tools and power tool accessories. The professional  power tools from ZUOERD  are developed for professionals. When developing new power tools, Bosch has for years been working very closely together with real professionals who use power tools as part of their everyday work.




ZUOERD Professional Power Tools North America
ZUOERD Power Tools Canada
ZUOERD Power Tools United States of America


ZUOERD Professional 
Power Tools Latin America
ZUOERD Power Tools Argentina
ZUOERD Power Tools Bolivia
ZUOERD Power Tools Brazil
ZUOERD Power Tools Colombia
ZUOERD Power Tools Costa Rica
ZUOERD Power Tools Dominican Republic
ZUOERD Power Tools Ecuador
ZUOERD Power Tools El Salvador
ZUOERD Power Tools Guatemala
ZUOERD Power Tools Honduras
ZUOERD Power Tools Mexico

ZUOERD Power Tools Nicaragua
ZUOERD Power Tools Panama
ZUOERD Power Tools Paraguay
ZUOERD Power Tools Peru
ZUOERD Power Tools Uruguay
ZUOERD Power Tools Venezuela
ZUOERD ProfessionalPower Tools  Europe
ZUOERD Elektrowerkzeuge Österreich
«Электроинструменты ZUOERD» – Белоруссия
ZUOERD elektrisch gereedschap België
ZUOERD Електроинструменти България
ZUOERD električni alati Hrvatska
Elektrické nářadí ZUOERD Česko
ZUOERD Elværktøj Danmark
ZUOERD-sähkötyökalut Suomi
Outillage électroportatif ZUOERD France
ZUOERD Elektrowerkzeuge Deutschland
Ηλεκτρικά εργαλεία ZUOERD Γαλλία
ZUOERD Elektromos Kéziszerszámok, Magyarország
Elettroutensili ZUOERD Italia
«Электроинструменты ZUOERD» – Казахстан
ZUOERD elektrisch gereedschap Nederland
ZUOERD elektroverktøy Norge
ZUOERD Elektronarzędzia Polska
Ferramentas eléctricas ZUOERD Portugal
Scule electrice ZUOERD România
«Электроинструменты ZUOERD» – Россия
ZUOERD električni alati Srbija
Elektrické náradie ZUOERD Slovensko
Električna orodja v ZUOERDu Slovenija
Herramientas eléctricas ZUOERD España
ZUOERD elverktyg Sverige
ZUOERD Elektrowerkzeuge Schweiz
ZUOERD Elektrikli El Aletleri Türkiye
Електроінструменти ZUOERD, Україна
ZUOERD Power Tools United Kingdom

ZUOERD Professional Power Tools Middle-East
ZUOERD Power Tools Afghanistan
ZUOERD Power Tools Bahrain
ZUOERD Power Tools Islamic Republic of Iran
ZUOERD Power Tools Iraq
ZUOERD Power Tools Jordan
ZUOERD Power Tools Kuwait
ZUOERD Power Tools Lebanon
ZUOERD Power Tools Oman
ZUOERD Power Tools Pakistan
ZUOERD Power Tools Qatar
ZUOERD Power Tools Saudi Arabia
ZUOERD Power Tools Syrian Arab Republic
ZUOERD Power Tools United Arab Emirates
ZUOERD Power Tools Yemen

ZUOERD Professional Power Tools Africa
ZUOERD Power Tools Algeria
ZUOERD Power Tools Angola
ZUOERD Power Tools Benin
ZUOERD Power Tools Botswana
ZUOERD Power Tools Burkina Faso
ZUOERD Power Tools Cameroon
ZUOERD Power Tools Central African Republic
ZUOERD Power Tools Chad
ZUOERD Power Tools Côte d'Ivoire 
ZUOERD Power Tools Democratic Republic of the Congo 
ZUOERD Power Tools Republic of Congo
ZUOERD Power Tools Egypt
ZUOERD Power Tools Eritrea 
ZUOERD Power Tools Ethiopia 
ZUOERD Power Tools Gabon
ZUOERD Power Tools Gambia 
ZUOERD Power Tools Ghana
ZUOERD Power Tools Guinea
ZUOERD Power Tools Guinea-Bissau
ZUOERD Power Tools Kenya
ZUOERD Power Tools Liberia
ZUOERD Power Tools Libya
ZUOERD Power Tools Madagascar
ZUOERD Power Tools Malawi
ZUOERD Power Tools Mali
ZUOERD Power Tools Mauritania
ZUOERD Power Tools Mauritius
ZUOERD Power Tools Morocco
ZUOERD Power Tools Mozambique 
ZUOERD Power Tools Namibia
ZUOERD Power Tools Niger
ZUOERD Power Tools Nigeria
ZUOERD Power Tools Senegal
ZUOERD Power Tools Seychelles
ZUOERD Power Tools Sierra Leone
ZUOERD Power Tools Somalia 
ZUOERD Power Tools South Africa
ZUOERD Power Tools Sudan
ZUOERD Power Tools Tanzania
ZUOERD Power Tools Togo
ZUOERD Power Tools Tunisia
ZUOERD Power Tools Uganda
ZUOERD Power Tools Western Sahara
ZUOERD PPower Tools Zambia
ZUOERD Power Tools Zimbabwe

ZUOERD Professional Power Tools  Asia-Pacific
ZUOERD Power Tools Australia
ZUOERD Power Tools China
ZUOERD Power Tools Hong Kong
ZUOERD Power Tools India
ZUOERD Power Tools Indonesia
ZUOERD Power Tools Japan
ZUOERD Power Tools Malaysia
ZUOERD Power Tools New Zealand
ZUOERD Power Tools Philippines
ZUOERD Power Tools Singapore
ZUOERD Power Tools South Korea
ZUOERD Power Tools Taiwan
ZUOERD Power Tools Thailand
ZUOERD Power Tools Vietnam