A Weft Accumulator is a special type of thread accumulator designed to give sewing machine users a continuous feeding of new threads into their machine. This allows the user to continue working even when their machine is not working well, thereby allowing the user to complete their projects with a higher degree of quality than would be possible without the Weft Accumulator. It also allows them to complete more projects, which results in higher profits. The following article is a brief introduction to the Weft Accumulator and its advantages. It should be noted that although this article describes the general usage of this device, it is not meant to serve as legal or medical advice, nor to be used against any third party.
The Weft Accumulator is made up of a series of hollow tubes (weft) that run through the base material. When the threads are fed through the base material, they are kept together by Weft Force Field (WF-510). WF-510 prevents the threads from separating and keeps them bound to the base material. Weft threads are similar to the threads found on a spinning jig and are generally used in conjunction with the wf-510. Methods for fixing the threads to the base material include:
The construction of a Weft Accumulator consists of several distinct parts. The first of these parts is the "Weft Tube". The "Weft Tube" is attached to the inside of the Weft Accumulator. When the WF 510 stops the threads from separating and binding to the base material of the Weft Accumulator, the entire assembly becomes a single piece.
The next part of a Weft Accumulator is the prewinding drum, which is located inside the body of the device. The prewinding drum acts as the pulling device to keep the Weft Accumulator from spinning. The prewinding drum may be either a plastic cylinder like that found in a compact disks, or it can be a metal shaft attached to a solid brass or steel housing.
Next, the device will contain an integrated motor that functions as the third internal part of the Weft Accumulator. The motor is the part of the machine that carries out the actual weaving process. The Weft Accumulator's core function is to regulate the cutting process, and this is done by the motor driving the presiding drum. The motor is typically made up of a chain, usually via metal, and is attached to the weaving machine. The chain contains teeth, which pass through the central core of the machine, and onto the loom in order to complete the weaving process.
As previously mentioned, the Weft Accumulator was originally designed to make the loom manufacturing process faster, and simpler. Many early inventions were based on the same basic principle, and these include such well-known examples as the Weft Thread Supply Package and the Weft Accumulator itself. The latter was the first real alternative to standard pre-woven looms. The Weft Thread Supply Package included a special paper that was used to create the fabric used in the Weft Accumulator, as well as an attachment known as the 'loom throat'.
Despite the fact that these early inventions are no longer used today, the basic principle of how the Weft Accumulator and rewinding machines work remain. The reminder drum and its internal moving parts remain largely unchanged, and what has changed are the way that they are powered. Although the basic principle remains intact, the primary motor in most modern weft accumulators is powered by an electric motor. This type of power supply, however, is much safer than the original motor, as the current is now run through a protective winding tube. Although this type of power supply is generally much quieter, it is also usually more expensive, since they generally use non-inverting current, so require a separate electrical box for the winding tube assembly.
The Weft Accumulator and rewinding machines work in essentially the same way, however, the way the fabric is fed into the loom can be different. The standard Weft Accumulator consists of two boxes - one with an opening in the top, where the fabric is fed into the weft accumulator. This unit may also contain a valve or feed pipe, which allows a small amount of thread break to be released while the machine spins the fabric. Alternatively, the lower box could be designed to have an opening, like that of a typical hand wash basin.
