How to Use a Finishing Nailer in Woodworking

A Quality Finish Nailer Can Speed Up the Assembly Process

Apach Finishing Nailer

Finishing nailers are designed to nail moldings and smaller trim boards onto assemblies with ease. The thin finish nails can be driven through the trim board into hardwoods, softwoods, plywood or other manufactured wood products such as MDF with a very small footprint, leaving behind a very small nail hole that can be filled using wood filler before or after applying the finish. The thin nail is also far less likely to split the delicate trim board than a larger framing or other types of nail or wood screw and typically holds much better than an adhesive.

 

The finish nailer is also much faster than nailing finish nails using a hammer, allowing the trim carpenter or woodworker to be far more productive. The finish nailer has the added advantage of being able to be used one-handed, freeing up the other hand for holding the trim or molding in place.

 

Features of a Finish Nailer

Most finish nailers use nails ranging from 15-18 gauges, and the style of nailer is either straight or angled (meaning that the magazine that holds the nails beneath the nailer is either perpendicular to the nailing direction or at an angle of about 20 degrees). Nails for these nailers come in strips of 50-100, usually in boxes of about 2000 in total, and usually, range from 1-1/4 to 2-1/2 inches in length. Smaller finish nailers, commonly called brad nailers, will shoot very thin brads ranging from 5/8-inch up to 1-1/2 inches in length.

 

Safety Features

Finish nailers have a safety nose that must be depressed before the trigger of the nailer will engage and be able to be pulled.

 

Most finish nailers include a rubber, anti-marring tip that can be slipped over the tip of the nose to prevent the nailer from damaging the wood or molding being nailed.

 

To use the finish nailer, position the tip of the nailer on the trim board at the location where you want the nail to be driven. Then, adjust the position of the nailer to drive the nail in the proper direction.

 

In most cases, the nailer’s cylinder and the tip should line up perpendicular to the face of the board, allowing the nail to be driven squarely into the board. In other cases, though, you may need to angle the nail to catch sufficient wood behind the trim or molding, so adjust your angle of the nailer accordingly.

 

Once the nailer is aligned properly, push the nailer gently toward the wood, depressing the safety nose of the nailer, and pull the trigger. A finish nail should be driven directly into the trim at the desired angle.

 

As with all power tools, be sure to wear appropriate safety equipment, including safety glasses, hearing protection where necessary and appropriate clothing.

 

Pneumatic or Cordless?

Finish nailers come in two styles, pneumatic and cordless. Pneumatic finish nailers are powered by compressed air via a hose from an air compressor. Conversely, cordless finish nailers utilize a combination of a rechargeable battery and a compressed air canister to drive the nail. Obviously, the cordless unit has the advantage of not being tethered via a hose, but because of the onboard battery, the cordless units tend to be a bit heavier.

 

Costs are also a concern for both types of nailers.

 

With a pneumatic nailer, you obviously need a decent air compressor and hoses to run the distance between the compressor and the area being nailed, so the initial costs are much higher than a cordless unit. On the other hand, with the cordless, you don’t have such a large up-front expense, but you do have some consumables, specifically the need to purchase more air canisters when the current canisters run out. If the required canister isn’t available at your local lumberyard or home center, you may need to order more online or else your cordless finish nailer will be unusable.

 

Dealing with Problems

When working with a finish nailer, you want the head of the finish nail to be sunk just below the surface of the trim board or molding so that it can easily be filled with nail filler. If the nails aren’t being fully sunk, you can drive them in using a hammer and a nail set, but that is extra work that you shouldn’t have to do.

 

The problem typically is caused by either insufficient pressure from the air compressor, or the depth adjustment dial on the finish nailer needs to be rotated until the nails are driven to the appropriate depth. Check the operating manual for your particular finish nailer model for instructions on how to modify the depth adjustment.

 

One other problem that occasionally arises is a jam in the head of the finish nailer. Nearly all finish nailers have an easy-to-open latch on the front of the nailer that can be opened and the jammed nail(s) removed. For safety, disconnect the nailer from the air compressor or take out the battery and/or air cartridge before opening the latch to remove a jam.

 

Apach Industrial Co., Ltd. is the well-known manufacturer and supplier of finishing nailer. Their air finish nailers are designed to accomplish carpentry finish work quickly and efficiently. Especially Apach new angled finish nailer can be used for bedding, cabinets, siding, upholstery and other applications. If you have any interest in finishing nailer and air finish nailers etc. products, try to send inquiry to Apach. They will offer you the best price and superior high quality.

 

 

Article Source: https://www.thespruce.com/how-to-use-a-finish-nailer-3536707

Pull Studs: Importance of Selection and Maintenance

Pull stud is the tension part between the principal spindle of the boring milling CNC machine tool and the tool holder. It is also called pull head, connecting pull head, thread pull head, tool holder pull head, tool holder pull stud, tool holder joint, fastening pull stud and tool holder tensioner, etc. Due to its small volume and low value, its importance in work is easily neglected by people. To better develop the role of the lathe, it is necessary to have a understanding about the pull stud and lathe tension mechanism.

 

Pull Stud Stand and Its Combination:

 

Pull Stud Is The Spare Part Fixed At The Tail End Of Various Tool Holders Through Thread.

 

The tension mechanism inside the principle spindle of the lathe tensions the tool holder in the principal spindle by use of it. The tensioning is maintained by replying on a group of springs. After tension is realized, the prolapse of tool holder and tool from the high-speed rotary principal shaft can be avoided sufficiently.

 

Pull stud is designed according to the standards of tool holder and related part of the lather. Due to the various standards for the tool holder, the lather tension mechanism also differs. Therefore, the united standards cannot be formed for the pull studs. Sometimes, the two ends of the pull studs live up to certain standard (like ANSI, DIN, ISO or JMTBA). However, sometimes, the mixture form (the thread part is adapted to the tool holder part of ISO standard while the pull stud head is also adapted to the lather of ANSI. In this case, such mixture combination can bring about a lot of different pull studs) also exist. In case of inappropriate selection of pull studs, the accident will be caused when using the tool holder after it is installed in the tool holder.

 

Selection of Pull Stud:

 

Facing Various Pull Studs, How to Find Out The Specification And Type You Need?

 

It is better to select the pull studs according to the instruction of the lather. The drawing or type of the pull stud will be given out in the instructions of lather by most lather manufacturer. Additionally, the determination can be made after measuring the pull studs for the lather. Most pull studs are of 10-12 dimensions. It is necessary to provide the details to the supplier in case of ordering. However, the attentions should be especially paid to main three parts: namely the angle of pull stud, the distance from the base level to this angle and the thread type. These three dimensions are easily measured. If a national lather (Actually, the taper hole of the principal spindle is British system dimension, it is just labeled by changing it into the metric unit) and a batch of tool holders of British system taper are bought for a workshop. As for the pull studs, the thread is labeled with America system (adapted to the tool holder), the metric system shall be used for other dimensions and adapted to tension mechanism of lathe.

 

If you are looking for pull studs manufacturer, Shin-Yain Industrial Co., Ltd. is a wonderful choice! This company is a well-known tool holders manufacturing expert in Taiwan. Shin-Yain can offer a variety of tool holders, collet chucks, pull studs, and shrink fits to you. More details, try to check out Shin-Yain’s website: www.syic.com to gain you need.

 

 

Article Source: http://lyxcsfx.com/case/xincheng-precision-selection-and-maintenance-of-pull-studs-c00005c1.html