Four sided planer woodworking machines factory right now: After 20 years development, V-HOLD has constructed strong hardware facilities and humanized management system by bringing in tens of brand-new large automotive precision CNC machine center from developed countries such as Japan, German, along with over 67,000m2 large modern workshop with complete facilities and production lines, V-HOLD has realized its high efficient production. Besides that, the cooperation with world famous management consulting firm and introduction of modern business administration system such as ERP, 6S have laid solid foundation to the development of V-HOLD. Thanks for the trust and support of our customer. V-HOLD will consistently stick to the belief that: Profession and concentration accomplish excellent brand ! Find extra details on woodworking machines manufacturer.

A beam saw cuts panels and sheet materials to the size required. It can deal with MDF, insulation, plastics and laminated boards. A clamping beam keeps the boards in place while the mobile saw carriage moves underneath the material. This type of saw has a computer control allowing you to automate as well as making multiple cuts. These machines can also be linked to computer software that optimises your yield. A beam saw is designed for repetitive, accurate cutting to size, making them the most cost-effective at precision panel cutting. Front loading beam saw – the user loads the materials into the front of the machine. Rear loading beam saw – the user places the materials on to an automatic lift table which will automatically be loaded into the back of the beam saw.

Up-acting machines can limit staged bending because of the possibility of ram tilt, staged bending may not be a viable option on an up-acting machine. Because staged bending utilises multiple stations on one machine, if any of the stations on an up-acting machine are too far from the centre, ram tilt may result. Hydraulic presses come in many different forms and are used in many different industries. The basic structure to all presses is a heavy-duty main frame with hydraulic cylinders. The number of cylinders are dependent on the pressure requirement. They are operated by a hydraulic power pack. The presses can be manufactured with heated or cold platens and can have conveyors fitted to make the presses automated.

The chain mortiser is primarily used for making mortises in doors and windows. It carries an endless chain which has saw type teeth on its outer surface. The chain revolves around a guide bar and cuts the stock. The mortise of the desired length is produced with round bottom corresponding to the profile of the revolving chain. The oscillating bit mortiser carries a oscillating router bit and produces comparatively small mortises suitable for small cabinet and chair work.

The defining characteristic of all machine presses is that they press a work-piece using high pressure to change its shape. While the exact mechanics vary depending on the type of machine press, most machine presses work by pressing a plate or die onto or against a work-piece. The work-piece can either be manually placed into the machine or a through-feed will automatically place the work-piece in the correct position. Once in position, using hydraulics pressure, the machine press pushes the plate or die against the surface of the work-piece, which causes the work-piece’s shape to deform into the shape required by the manufacturer.

The woodworking lathe is one of the most important machines used in a carpentry shop. This is employed primarily for turning jobs in making cylindrical parts. However, by suitably manipulating the tools, tapers, radii, and other irregular shapes can also be easily turned. It resembles the engine lathe most frequently used in the machine shop, and consists of a cast iron bed, a head stock, tail stock, tool rest, live and dead centers, and a speed control device (Fig. 10.54). The drive, in modern lathes, is individual motor driven ; and a cone pully on the head stock spindle is connected by a belt to a cone pully on the motor shaft.

The wood is fixed between the headstock and tailstock of the lathe. The headstock houses the motor that spins the work-piece. The tailstock is adjustable, moving along the length of the bed to fit work-pieces of various lengths. Once the work-piece is locked in place, the tool rest is set into position. The spinning work-piece is then shaped using a chisel or gouge held fast to the tool rest. Face-plate turning, in with the work-piece is fastened with screws to the face plate of the drive spindle, allows the woodworker to produce bowls and other hollow goods. See more details on https://www.v-holdmachinery.com/.