JPS6350033B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field] The present invention provides an electric shaver blade, particularly an inner cutter blade supported by an inner cutter base and biased by a spring in a direction in which the edge contacts the inner surface of the outer cutter. This invention relates to an electric shaver blade formed of a plurality of types having different contact lengths with the outer cutter.

[Background Art] In recent years, in order to improve the efficiency of introducing whiskers, it has been proposed to provide the outer cutter 2 with a concave portion 20 as shown in FIG. 9. In order to improve the adhesion with the outer cutter 2, the inner cutter blade held on the inner cutter base 3 is separated from the inner cutter blade 11 on the inner peripheral side in the rotary type as shown in the figure. Inner blade 12 on the outer circumference side
Each inner cutter blade 11, 1 is divided into two parts and each inner cutter blade 11,1
There are some that energize each of 2 independently. This type has the following problems when compared to a type in which the inner blade is not divided. That is, when a strong external force is applied to the outer cutter 2, such as when the outer cutter 2 is pressed very strongly against the skin or dropped, the inner blades 11 and 12 are pressed against the outer cutter 2. spring 4
(In Fig. 9, this is shown by the movement of the inner cutter base 3 side; the imaginary line shows normal conditions, and the solid line shows such abnormal situations). From the viewpoint of supporting the blades 11, 12, the maximum amount by which the inner blades 11, 12 sink, that is, the floating amount, is determined by the stopper formed on the inner blade base 3 and in contact with the lower edge of the inner blades 11, 12. 30,30. and,
In what has been proposed so far, when comparing the floating amount F ₁ of the inner blade 11 and the floating amount F ₂ of the inner blade 12, the former is larger or the floating amount F 2 is set to be the same. , the problem of deformation of the outer cutter 2 frequently occurred. This is because the inner blade 11 located on the inner circumferential side has a long contact length with the outer cutter 2, and as is clear from FIG.
The inner cutter blade 11 crosses the crosspieces forming the outer cutter 2, but the number of crosspieces crossing is large, whereas the length of contact with the outer cutter 2 is shorter on the outer circumference side. In the inner blade 12, a three-dimensional slit-shaped blade hole 22 is formed at the outermost periphery of the outer cutter 2 in order to maximize the efficiency of whisker introduction.
The number of crossing bars is quite small, 1-2. For this reason, when a very strong external force is applied to the outer cutter 2 and the inner cutter blades 11 and 12 sink down until they come into contact with the stoppers 30 and 30, the inner cutter blade 11 has multiple points on the outer cutter. Although it is unlikely that the inner blade 11 deforms the outer cutter 2 in order to receive the cutter 2, the inner blade 12 has a high hardness and sharp edge that allows the outermost crosspiece of the outer cutter 2 to be deformed. It can easily be deformed or broken.

[Object of the Invention] The present invention has been made in view of the above points, and its purpose is to provide a device having a plurality of types of inner cutter blades having different contact lengths with the outer cutter, To provide an electric razor blade in which an outer cutter is not deformed or broken even if an abnormal external force is applied to the outer cutter.

[Disclosure of the Invention] Accordingly, the present invention provides an inner blade that is supported by an inner blade base and is biased by a spring in a direction in which the edge contacts the inner surface of the outer blade, and has different lengths of contact with the outer blade. In electric razor blades made of multiple types,
The amount of floating between the inner cutter base and outer cutter of the inner cutter blade that has a longer contact length with the outer cutter is compared with the floating amount of the inner cutter blade that has a smaller contact length with the outer cutter. It is characterized by its small size, and even when an excessive external force is applied to the outer blade and the inner blade sinks to the maximum allowable amount,
The inner blade, which has a long contact length with the outer cutter, receives the outer cutter, and the inner cutter blade, which has a short contact length with the outer cutter and easily deforms the outer cutter, is still in a sunken state, that is, the inner blade of the outer cutter. It is designed so that no stress is applied to it.

The present invention will be described in detail below based on an embodiment of the rotary electric shaver shown in the drawings.
The outer cutter 2 whose outer periphery is fixed to the outer cutter frame 5 by
Annular grooves 20, 20 are formed at the locations, and the blade holes 22 are connected to the grooves 20.
As is clear from FIG. 8 shown in the explanation of the conventional example, all of them have a long three-dimensional slit shape. Further, inside the outermost peripheral portion of the outer cutter 2, a comb member 6 is fixed to the outer cutter frame 5 and has a groove at its upper end that is continuous with the three-dimensional slit-shaped cutter hole 22.

The inner blades held on the inner blade base 3 which is attached to the output shaft of the motor and rotates include two inner blades: an inner blade 11 arranged on the inner periphery side and an inner cutter blade 12 arranged on the outer periphery side. The former has three inner blades 11 at equal intervals, and the latter has one inner blade 12 on the extension of the inner blade 11.
There are six of them, one for each. These inner blades 11 and 12 are
It is inserted into a hole passing through the inner cutter base 3 in its axial direction, and its lower end is locked with a push-up spring 4. It should be noted that each of the push-up springs 4 whose tips are engaged with the inner blades 11 and 12 is integrally formed, as is clear from FIG. 2.

Now, each inner cutter blade 11, 12 is biased by the push-up spring 4 so that the outer cutter 2 comes into contact with the edge, and when force is applied to the outer cutter 2, the outer cutter 2, the inner cutter blades 11 and 12 are made to sink against the inner cutter base 3 against the push-up spring 4. The floating amounts F ₁ and F ₂ as the amount that can be absorbed are as follows:
Each inner cutter blade 11,1 is provided on the inner cutter base 3.
The floating amount F ₁ of the inner cutter blade 11 on the inner peripheral side, which has a longer contact length with the outer cutter 2, is determined by the stopper 30 that can freely come into contact with the lower edge of the outer cutter 2.
is smaller than the floating amount F _{2 of the inner cutter blade 12 on the outer peripheral side, which has a shorter contact length with the outer cutter 2} . Therefore, even if an abnormal external force is applied to the outer cutter 2 and the inner cutter blades 11 and 12 are caused to sink by the outer cutter 2, the amount of sinking is the same as the floating amount _F1 , that is, the inner cutter blades Blade 11
Even if the inner cutter blade 12 contacts the stopper 30 and does not sink any further, as shown in FIG. , there is still a sinkable amount f remaining, and the outer cutter 2 can only be received by the blade 11, and the contact length with the outer cutter 2 is short and there is a risk of damaging the outer cutter 2. The tall inner blade 12 does not come into contact with the outer cutter 2 even with a large force.

Note that what was shown in the above example is actually the sixth example.
The situation shown in the figure will not occur. This is because the inner cutter base 3 is provided with buffer contact parts 35 and 36 that come into contact with the outer cutter 2 before the inner cutter blade 11 contacts the stopper 30 and sinks due to being pushed by the outer cutter 2. It's for a reason. The buffer contact portion 35 is provided on the upper surface of the inner cutter base 3 parallel to the edge of the inner cutter blade 11, and the buffer contact portion 36 is provided on the outermost periphery of the upper surface of the inner cutter base 3 so that the inner cutter blade 12 is placed between them. As shown in FIG.
The distance L ₁ between the inner blade 11 and the outer blade 2 is smaller than the floating amount F ₁ of the inner blade 11, and the buffer contact portion 3
The distance L ₂ between the outer cutter 6 and the outer cutter 2 is smaller than the floating amount F ₂ of the inner cutter blade 12 .

When an abnormal external force is applied to the outer cutter 2, the buffer contact portions 35 and 36, which contact the outer cutter 2 with an area larger than the contact area of the inner cutter blades 11 and 12 with the outer cutter 2, This means that people are starting to accept it. In addition, the buffer contact portion 36 is provided almost all around the outermost periphery of the inner cutter base 3, so that the contact area with the outer cutter 2 is increased.
In other words, the number of crosspieces of the outer cutter 2 is increased, but the contact area is smaller than the buffer contact portion 35, which is made thicker to increase the area. Since the stress _caused by
By increasing L ₂ , the outer cutter 2 can be moved to the buffer contact area 3.
5, the buffer contact portion 36 is not yet in contact with the outer cutter 2.

[Effects of the Invention] As described above, the present invention includes a plurality of types of inner cutter blades having different contact lengths with the outer cutter, and the inner cutter base of the inner cutter blade and the outer cutter have a large contact length. The amount of floating between the two blades is smaller than that of the inner blade, which has a shorter contact length with the outer blade, so when the outer blade is pressed very strongly against the skin, or when the electric shaver is dropped. Even when a strong external force is applied to the outer cutter, such as when the outer cutter is cut, it is the inner cutter blade with a longer contact length that receives the outer cutter, and the inner cutter blade with a smaller contact length with the outer cutter receives the outer cutter. This has the effect of preventing the inner blade, which is in a further depressed state and has a short contact length with the outer cutter, from applying large stress to the outer cutter, causing the outer cutter to deform or break. .

[Brief explanation of the drawing]

FIG. 1 is a cutaway front view of one embodiment of the present invention, FIG. 2 is a bottom view of the same, FIG. 3 is a front view of the inner cutter base and inner cutter blade, and FIG. 4 is the inner cutter base of the same. A plan view of the base and the inner cutter blade, FIGS. 5 to 7 are cross-sectional views of the same as above, FIG. 8 is a plan view showing the arrangement of the inner cutter blade with respect to the outer cutter, and FIG. 9 is a cross-sectional view of the conventional example. 2 is an outer cutter, 3 is an outer cutter base, 4 is a push-up spring, 11 and 12 are inner cutter blades, 35 and 36 are buffer contact parts, F ₁ and F ₂ are floating amounts, L ₁ and L ₂
indicates the interval.

Claims (1)

[Scope of Claims] 1. Inner blades supported by an inner blade base and biased by a spring in a direction in which the edge contacts the inner surface of the outer blade are formed of a plurality of types having different lengths of contact with the outer blade. In electric razor blades, the amount of floating between the inner cutter base and outer cutter of the inner cutter blade with a longer contact length with the outer cutter is different from that of the inner cutter with a small contact length with the outer cutter. An electric razor blade characterized by having a floating amount smaller than that of the blade. 2. The electric shaver blade according to claim 1, wherein the distance between the inner cutter base and the outer cutter is smaller than the floating amount of the inner cutter blade. 3. The distance between the part of the inner cutter base that holds the inner cutter blade that has a long contact length with the outer cutter and the outer cutter is such that the inner cutter blade that has a small contact length with the outer cutter is held. 3. The electric shaver blade according to claim 2, wherein the distance is smaller than the distance between the cutting portion and the outer cutter. 4. The inner blade rotates and slides on the inner surface of the outer cutter, and the inner blade with a longer contact length with the outer cutter is placed on the inner circumferential side, and the inner cutter blade with a shorter contact length with the outer cutter is placed on the inner circumferential side. An outer blade collision buffer section is disposed on the outer circumferential side, is provided on the upper surface of the outer circumferential side of the inner cutter base, and forms an interval between the inner cutter blade and the outer cutter that is smaller than the floating amount of the inner cutter blade on the outer circumferential side. The electric shaver blade according to claim 2, wherein the inner cutter base is elongated in the circumferential direction.