RU2069615C1 - Razor blade straightening method - Google Patents

Abstract

FIELD: tool engineering. SUBSTANCE: method involves positioning razor blade in magnetostatic field, with blade surface being positioned in magnetic field plane of symmetry. EFFECT: improved quality of blade by reduced chipping and cracking of blade material, wider operational capabilities and enhanced reliability in operation. 4 dwg

Description

 The invention relates to tool production and can be used for dressing a blade tool, including safety razor blades and cassette devices.

 All well-known dressing methods are carried out by mechanical action on the cutting edges of the blades. The disadvantage of these methods is the low resistance of the blades. This is due to the fact that during the dressing process the chipping and cracking of the cutting edge occurs, which leads to a decrease in durability.

 The closest in technical essence and the achieved result is a method of processing products, in particular metal-cutting tools, according to which the latter, after heat treatment, are placed in a magnetic field, kept in a magnetic field with an intensity selected from the condition of full magnetic saturation for 0.1- 1.0 min In this case, the magnetic field strength is chosen to be 6000-10000 Oersteds, and in order to obtain a northern polarity on the working part of the product, the latter is in contact with the southern one, and the reference one with the northern magnet strips. This method allows to increase the tool life by 3-4 times (A.S. N 458394, class B 23 V 1/00, 1975).

 The objective of the invention is to improve the quality of editing with increasing durability. This is achieved by editing the razor blades, including the installation of the blade in a constant magnetic field, while the plane of the blade is placed in the plane of symmetry of the magnetic field.

 An example of the implementation of this method may be the editing method in the device described below.

 Figure 1 shows a General view of the device, which implements the described method in a variant of its use when editing safe blades of the type "Neva"; figure 2 an option of using the dressing method for disposable cassette blades of the type "Sputnik", "Sputnik-2", "Vest".

 The device for straightening razor blades contains a base 1, permanent magnets 2 with a blade holder 3 located between them. The magnets face the blade holder 3 with opposite poles. In the described embodiment (Fig. 1), the blade holder is made in the form of two clamps for installing the blades in them.

 In a specific embodiment of the use of this device, the permanent magnets 2 are 40x7x5 mm in size and are made of the UNDA alloy grade, are fixed in the base 1 made of plastic. The dressing blade 4 is inserted into the blade of the holder 3 on the base 1 always with the same side, guided by the inscription on it. The blade under the influence of magnetic forces occupies the position of the north-south plane, without touching the magnets. When editing cassette blades (Fig. 2), they are installed at an angle that ensures alignment of the plane of the blade 5 and the north-south plane of the magnets. In this embodiment, the cassette body serves as a blade holder. The editing time depends on the strength of the interaction of the two poles, the distance between them. In a specific embodiment, one minute is enough.

 In the study, I used magnets with induction of 4, 12, 20, 60, 80 mT. Measurements directly on the sides of the magnets.

 The proposed method can be implemented, as shown by subsequent studies in a simple device (Fig. 3) with one magnet 2 (dimensions 6x15x40 mm). The direction of magnetization is along the size of 6 mm. The blade 4 is inserted into the groove of the base 1 symmetrically located in the NS plane. The distance of the cutting edge to the magnet is 1.5 mm.

The blade is also inserted into the device on one side (cutting edge), being guided by the marking on it. The dressing time in this device, depending on the deterioration (approximate, established experimentally) during the induction of magnets:
4 mtl 12 h
12 mT 1 h
20 mtl 3 min
60 mT 1 min
80 mT 20 s
In the study, it was found that the cutting edge directed to the north is approximately 1.2 times greater than the resistance of the south. Almost the north side of the blade can be shaved 6 times, the south 5.

 Another example of the proposed editing method may be the method depicted in FIG. 4, used in cable production for cutting wide tape into narrow strips.

Claims (1)

 A method of straightening razor blades, comprising installing a razor blade in a constant magnetic field, characterized in that the plane of the razor blade is placed in the plane of symmetry of the magnetic field.

Images