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ELECTRIC RAZOR WITH CROSSWISE CUT

Electric razor with crosswise cut is an electric razor designed to ensure much rapid and easy shaving with vibrating electric razors in any model and design. The system consists of a vibrating arm powered by the vibration head of the electric razor, a shaft and a sieve (Foil) mechanism designed for crosswise cut.
The existing electric razors also consist of a sieve, blade and a vibration head moving this blade to right or left to ensure cutting of the hair. The cutting procedure is based on the capturing of hair within pores of the sieve as it is moved on the hair and cutting by the blade; during this procedure, the sieve is in a fixed position and cutting procedure is performed by the blade vibrating and moving to right and left within the inner part of the sieve. These electric razors complete the cutting work with a single-phase blade system; however, there are also electric razors with a three-phase procedure that can cut both short or long hairs; these sieves again remain in a fixed position during cutting and with the purpose of complying with the facial contours, it moves up and down to ensure a more comfortable shaving with the purpose of moving head that adjusts to the facial contours.
Another system is the electric razor ensuring cutting of more hair by emitting micro vibrations. The sieve that is activated by the vibrated head creates a crosswise cutting effect for the electric razor. However, the dynamic movement of the sieve has a different structure from the developed electric razor with crosswise cut. The sieve is not vibrated with vibrating arms; rather, it is vibrated with a different technique, and together with the head that the sieve is connected to.

Parts shown in the illustrations are numbered, and correspondences of these numbers are given below

1-            Head of the electric razor
2-            Chute
3-            Sieve (Foil)
4-            Sieve barrier
5-            Housing of the vibrating arm
6-            Chute housing
7-            Blade
8-            Vibrating head
9-            Vibrating arm
10-          Shaft housing
11-         Fixed shaft
12-         Chamber of the electric razor
13-         Housing of the vibrating head
14-         Mobile shaft
15-         Housing of the mobile shaft
16-         Bottom-lapsing slide-on chute
17-        Housing of the bottom-lapsing slide-on chute
18-        Body of the electric razor  
19-        Tip of the vibrating head facing the exterior
20-        Tip of the vibrating head facing the interior
21-        Elbow
22-       Housing of the sideways slide-on chute
23-        Sideways slide-on chute
24- Shaft fixed onto the chamber
25- Shaft housing
26- Vibration elbow
27- Inner chamber
28- Vibration elbow housing
29- Vibration arm with an elbow
30- Chamber hole

The electric razor with crosswise cut (Illustration 1) operates based on the movement of the sieve (3) by the vibrating heads (9) connected to the vibrating head (8) in the opposite direction with the blade (7). Tips of the arms facing the interior (20) are inserted into the vibrating head housing (13) on the vibrating head mutually, and tips facing the exterior (19) are inserted into the vibrating arm housing (5) and tips (19, 20) of the arms within the housings (5, 13) are unattached in order to avoid contraction. When the tips of the arms facing interior (20) move to the left, the tips facing the exterior (19) simultaneously move to the right, and when the former move to the right the latter move to the left. The fixed shafts (11) on the arm, or the mobile shafts (14) that can be removed out of the mobile shaft housing (15) are inserted into the shaft housings (10) found in the chamber (12) of the electric razor to ensure   simultaneous movements of the blade and the sieve in the opposite directions. Parallel movement of the sieve according to the blade is ensured by sliding of the chutes (2) found in the internal part of the head to the chute housings (6) within the sieve barrier (4). The chute housings on the sieve barrier shift from right to left on the chute, which is in a fixed position, to perform the crosswise cutting

Here, the chute (2) and the chute housings (6) have features allowing use with mutual replacement. Chutes (23) can be fixed onto the electric razor head, or else can be used on the sieve barrier (Illustration 8). Likewise, chute housings (6) on the sieve barrier can be adapted to the electric razor head, and chutes (23) vibrate by moving right and left within the housings (22) on the head.
The electric razor with crosswise cut can also be used in its (16) version (Illustration 3)). The system operates just like in the way of operation electric razor with sideways slide-on chute (Illustration 2); however, the chutes (16) used here do not pass sideways; rather, they pass from the bottom-lapsing of the head (1). The bottom-lapsing chute on the sieve barrier (4) is inserted into the bottom-lapsing chute housing (17), tips of the vibrating arms facing the interior are inserted mutually into the vibrating head housing on the vibrating head, and tips facing the exterior are inserted into the vibrating arm housing. The fixed shafts on the arm or the mobile shafts that can be removed from the arm are likewise inserted into the shaft housings on the base of the chamber of the electric razor and ensure the movements of the blade and the sieve in opposite directions. The simultaneous parallel movement of the sieve in the opposite direction of the blade is ensured by inserting the bottom-lapsing chute housings on the sieve barrier into the bottom-lapsing chutes. The bottom-lapsing chutes on the sieve barrier slide to right and left on the bottom-lapsing chute housings and perform the crosswise cutting. The elbows (21) on the interior part of the head ensure the sieve to remain attached to the head without separating from it.
Electric razor with crosswise cut has features that allow it to be adapted to the inner chamber (27) of the razor (Illustration 9).The shaft (24) fixed onto the chamber passes to the shaft housing (25) on the vibrating arm (29) with an elbow and the vibrating elbow (26) passes through the hole (30) on the base of the chamber to enter the vibrating elbow housing (28) and moves the housing (28) it is now located in to the right and left and thus moves the sideways slide-on chute (23) on the sieve within the slide-on chute housing (22).

The system has features that allow it to be adapted to vibrating electric razors in any model and design with single or double sieves. The crosswise movement of the vibrating arms in-between the vibrating head and the sieve ensure shaving within a much shorter period and very easily thanks to its unique way of operation.                                                        
Simultaneous movement of the sieve with the blade in the opposite direction performs cutting with two-folds speed and also ensures a much more efficient performance, and since the crosswise cutting of the electric razor with crosswise cut is performed by vibrating the sieve directly, and not by vibrating it indirectly together with the electric razor head, much greater yield is obtained from the energy spent for cutting.
Possibility of replacing the sieve(s) alone and not together with the head in vibrating electric razors is considered an additional advantage. Sieves are mounted independently from the head in a way allowing mounting and dismounting, and the production of the system in general is considered extremely low.
While vibrating the sieve(s) when moving them to right and left ensures easier and more rapid cutting of the facial hair, it also creates a massaging effect on the skin, and the procedure of shaving becomes more fun. Furthermore, shaving the facial hair in a much shorter time and much more easily reduces the irritation of the skin.
It is thought that cutting can be performed with a much smaller rpm in the electric razor with crosswise cut. The cutting speed that is doubled with the movement of the sieve can continue in an unproblematic way even when the engine rpm is reduced with a certain ratio. This in turn will ensure operating the machine with less noise, while at the same time ensure economizing in energy.

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