Generally, a tip dresser of a single drawer according to a similar mechanism is fixed to be extended in four directions from a rotational center axis. And, for this purpose, the tip dresser has been configured to incorporate a small cutting edge provided on the face of an opposite end part of a drawer as per each direction of the rotational center axis. And, in order to provide an additional safety measure, the other end of this extension is mounted with a lever or a knob provided in the drawer. As a result, this dresser, being a simple one piece dresser with the drawer concealed within it, is not too complex to mount.
However, this simple dresser has some peculiarities to its functioning as well. It can be adjusted by means of a push button provided at the bottom or by means of a small rotary control wheel provided on its side. By pressing or turning this knob, it can be set as either a vertical or a horizontal blade for the cutting of edges and other shapes, with the choice as per the need for the particular operation. This flexibility is obtained owing to the fact that the rotary wheel on the side of the tip dresser can rotate as a result of the pressure applied on the same. In other words, in whichever direction the wearer is wishing the cut to be made, the rotary wheel on the tip dresser will rotate the blade as necessary, by means of this controlling mechanism.
This rotary control also determines the height of the clothes to be cut by the dresser. And, when this variable is controlled via a series of gears or brushes attached to the blade, it becomes possible to regulate the length of the resultant hair cut. This related art tip dresser has also a number of additional features which enable it to perform several useful functions such as the selection of the appropriate cutting tool to be used, its use for threading and bribing as well as the cutting and binding of clothes with various specific attachments. This art tip dresser also has an automatic closing unit and a number of additional attachment units which make it ideal for wide ranging and complex operations.
The tip dresser as designed in the present invention includes several electrodes positioned over various conductors, with the proximity of these electrodes determining the height and other characteristics of the cloth being cut. These electrodes are arranged so as to form an electrical field which is picked up by the cloth’s fibers. The electric field causes the fibers to move and be pulled to the ends, where they are thereafter picked up and manually grinded according to the current generated by the machine. The electrical field generated by the machine is further controlled by means of a series of switches and a few touch buttons to quickly and efficiently grind the said cloth.
In the present embodiment, the length of the interior portion 6 c of the beveled portion is equal to the depth of the opening 6 d of the beveled portion. In order to achieve this, the beveled portion has been adapted in such a way that it is embedded in a thick layer of soft cloth. The interior portion is in fact a tight-fitting cover made of the same cloth material so that only very thin threads of the cloth can pass through it into the interior portion.
A Servo Gun 1 is used to power the dresser body in the present invention. The Servo Gun 1 may be a hand-held device or a motorized device depending on the application. One example of such a device is illustrated in the figure showing the operation of a servo gun 1 in operation in connection with the present invention. In this example, the servo motor generates a rotary motion which is applied via a potentiometer to one end of the sleeve according to one embodiment of the present invention. This sleeve is then fitted into a corresponding portion of the beveled portion so as to form a cylindrical sleeve according to another embodiment of the present invention.