JP2013188455A - Electric razor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric razor that can effectively cut beard to raise the beard that is laid along skin.SOLUTION: A fixed blade 14 includes an upper blade wall 77, and a small blade 80 and a blade hole 81 of a slit shape are alternately formed to the upper blade wall 77, and a reinforcing rib 82 consecutive in a right and left direction is formed in a center of back and forth of the upper blade wall 77, the small blade 80 and the blade hole 81 formed on an edge of back and forth of the reinforcing rib 82 are formed to alternate. A recessed part 83 formed at an upper surface of the small blade 80 is formed to face the blade holes 81 opposing sandwiching the reinforcing ribs 82. The recessed part 83 is formed at an upper surface of the small blade 80 except back and forth end part neighborhoods of the upper blade wall 77.

Description

  The present invention relates to an electric razor provided with a cutting blade unit including a fixed blade and a movable blade in a razor head.

  This type of electric shaver is known from US Pat. In Patent Document 1, a comb body is provided on the outer surface of the outer blade to promote raising and introducing hair.

Japanese Patent No. 4711330

  This invention makes it the subject to raise | generate the wrinkle which sleeps along the skin surface, and to cut | disconnect a wrinkle effectively.

  The electric razor according to the present invention includes a fixed blade 14 in which small blades 80 and slit-shaped blade holes 81 are alternately formed, and a movable blade 15 that is in sliding contact with the inner surface of the fixed blade 14. A concave portion 83 is formed on the upper surface of the blade 80.

  Further, the concave portion 83 is formed in a groove shape and is formed along the axis of the blade 80.

  The fixed blade 14 includes an upper blade wall 77, and small blades 80 and slit-shaped blade holes 81 are alternately formed in the upper blade wall 77. Reinforcing ribs 82 are formed, and the small blades 80 and the blade holes 81 formed on the front and rear edges of the reinforcing ribs 82 are formed in a staggered manner. A concave portion 83 formed on the upper surface of the small blade 80 is formed so as to face the opposing blade hole 81 with the reinforcing rib 82 therebetween.

  Further, a concave portion 83 is formed on the upper surface of the small blade 80 excluding the vicinity of the front and rear end portions of the upper blade wall 77.

  Further, the concave portion 83 is formed in a waveform.

  In the electric shaver according to the present invention, since the recess 83 is formed on the upper surface of the blade 80, the wrinkle sleeping along the skin surface in the recess 83 can be raised. Thus, it can be effectively introduced into the blade hole 81 of the fixed blade 14 to cut the scissors.

  Since the recess 83 is formed in the shape of a groove and is formed along the axis of the small blade 80, it is possible to cause the wrinkle sleeping along the skin surface in the recess 83. It can be lifted and effectively introduced into the blade hole 81 of the fixed blade 14 to cut the scissors.

  If the small blades 80 and the blade holes 81 formed at the front and rear edges of the reinforcing rib 82 are formed so as to alternate with each other, for example, when shaving by moving the electric razor backward, the rear blade holes 81 are formed. Since the scissors that have passed over the small blade 80 without being introduced into the front can be introduced into the front blade hole 81 and cut, it is possible to cut more scissors with a single operation. In addition, since the ridge passing over the small blade 80 is guided by the recess 83, it can be more reliably introduced into the front blade hole 81. The recess 83 formed on the upper surface of the small blade 80 is formed so as to face the opposing blade hole 81 with the reinforcing rib 82 therebetween, so that it passes over the small blade 80 and is guided by the recess 83. Can be surely introduced into the opposite edge 81 and cut.

  A recess 83 is formed on the upper surface of the small blade 80 excluding the vicinity of the front and rear end portions of the upper blade wall 77. According to this, since the front and rear end portions of the upper blade wall 77 are easily in contact with the skin surface and the area in contact with the skin surface is small, if the concave portion 83 is formed in this portion, the skin surface may be damaged by the concave portion 83. There is. Therefore, by forming the recess 83 on the upper surface of the small blade 80 excluding the vicinity of the front and rear end portions of the upper blade wall 77, smooth skin contact can be achieved without damaging the skin surface. Further, the strength of the fixed blade 14 can be improved by preventing the strength of the front and rear end portions of the upper blade wall 77 from decreasing due to the reduction of the cross-sectional area due to the formation of the recess 83.

  Since the concave portion 83 is formed in a corrugated shape, vibration can be imparted to the heel guided by the concave portion 83, so that the heel sleeping along the skin surface can be firmly raised, and the blade hole 81 can be surely formed. Can be introduced and cut.

It is a side view which shows the electric shaver which concerns on 1st Embodiment. It is a front view of an electric razor. It is a vertical front view of a razor head. It is a vertical side view of a razor head. It is a disassembled front view of a cutting blade unit. It is a side view which shows a float structure. It is a partially broken plan view of the cutting blade unit. It is a side view which shows the float structure of the electric razor which concerns on 2nd Embodiment. It is a vertical side view of a razor head. It is a vertical front view of the electric razor which concerns on 3rd Embodiment. It is a vertical side view of a razor head. It is a side view which shows the float structure of an electric razor. It is explanatory drawing which shows a motion of a cutting | disconnection part unit. It is a vertical front view of the electric razor which concerns on 4th Embodiment. It is the sectional view on the AA line in FIG. It is a side view which shows the principal part of the electric shaver which concerns on 5th Embodiment. It is a side view which shows another embodiment of a float structure. It is a side view which shows another embodiment of a float structure. It is a fragmentary top view which shows another embodiment of a fixed blade.

First Embodiment FIGS. 1 to 7 show a first embodiment of an electric shaver according to the present invention. In the present invention, front / rear, left / right, and upper / lower follow the cross arrows shown in the figure and the front / rear, left / right, and upper / lower indications shown near each arrow.

  In FIG. 2, the electric razor includes a grip structure 1 including a main body case 2, an electrical component housed in the main body case 2, a razor head 3 supported by the main body case 2, and the like. The electrical component includes a secondary battery 4 and a circuit board 5 on which a control circuit is mounted. On the front surface of the main body case 2, a switch button 6 for starting the motor 26, a select button 7 for switching the operation state of the motor 26, an LED display unit 8, and the like are provided. Although not shown, the razor head 3 is supported by the main body case 2 through a floating support structure so as to be able to tilt back and forth, right and left, and move up and down, and a shaving unit is provided on the back side of the main body case 2. Yes. On the upper surface of the razor head 3, two rotary main blades 13 and a center blade (cutting blade unit) 16 disposed between the rotary main blades 13 and 13 are provided. The rotary main blade 13 includes an outer blade 11 in which a sheet-like cutting blade is formed on a sheet body, and a rotary inner blade 12 that cooperates with the outer blade 11 to cut a ridge, and mainly cuts short hairs. . The center blade 16 includes a slit blade-shaped fixed blade 14 and a comb blade-shaped movable blade 15 that cooperates with the fixed blade 14 to cut a ridge, and mainly cuts long hairs and hairs.

  As shown in FIG. 3, the razor head 3 is configured with a head frame 18 as a base, and includes a decorative frame 19 that is attached to and detached from the head frame 18, and a unit holder 20 that is attached to the left and right walls of the decorative frame 19. I have. The decorative frame 19 is made of a square frame-shaped plastic molded product having upper and lower surfaces opened. The decorative frame 19 is externally fitted and attached to the head frame 18 of the razor head 3, and the attached state is maintained by lock release buttons 21 incorporated on the left and right sides of the head frame 18. The lock release button 21 is locked and biased by a compression coil type lock spring 23. By pushing the lock release button 21 against the biasing force of the lock spring 23, the lock claw 22 and the decorative frame 19 The engagement state can be released. In this state, the decorative frame 19 can be detached from the head frame 18. The razor head 3 may have a structure in which the floating support structure is eliminated and the head frame 18 is integrally formed on the upper end of the main body case 2 and fixed to the main body case 2.

  As shown in FIGS. 2 to 4, the inner blade holder 25 is disposed on the upper surface of the head frame 18, and the rotary inner blade 12 is rotatably supported around the upper end of the inner blade holder 25. ing. A motor 26 is disposed inside the lower surface of the head frame 18, a first transmission structure 27 (see FIG. 2) is provided between the main blade 13 and the motor 26, and between the center blade 16 and the motor 26. A second transmission structure 28 (see FIG. 3) is provided. The first transmission structure 27 includes a gear train including a spur gear, a bevel gear, and the like, and can transmit the rotational power of the final gear to the inner blade 12 to drive the inner blade 12 to rotate about a horizontal axis. . The second transmission structure 28 includes a power conversion mechanism including an eccentric cam 29 and a vibrator 30, and transmits the reciprocating power of the drive piece 31 provided on the vibrator 30 to the passive piece 49 of the center blade 16. Thereby, the movable blade 15 can be reciprocated to the left and right.

  As shown in FIGS. 4 and 5, the unit holder 20 is a plastic molded product formed in a square frame shape with front and rear walls 33 and 34 and left and right walls 35 and 36, and guides 56 are provided on the left and right walls 35 and 36. Is provided. As shown in FIG. 3, a pair of front and rear reinforcing frames 38 that connect the left and right walls 35 and 36 are integrally provided at the front and rear center of the lower opening surface of the unit holder 20. A spring seat 39 for receiving a float spring 57 to be described later is formed. The spring seat 39 connects and reinforces a pair of front and rear reinforcing frames 38. Between the front wall 33 and the front reinforcing frame 38 and between the rear wall 34 and the rear reinforcing frame 38, the outer blade 11 of the rotary main blade 13 is fixed in an arch-shaped state. . As shown in FIG. 3, an engagement hole 41 for connecting to the decorative frame 19 is formed below the guide 56. The unit holder 20 is maintained in the mounted state by engaging the engaging claw 42 protruding from the decorative frame 19 and the engaging hole 41, and releases the engaged state of both 41 and 42. Thus, the unit holder 20 can be detached from the decorative frame 19.

  As shown in FIGS. 3 and 5, the center blade 16 includes the fixed blade 14, the movable blade 15, the fixed blade base 46, the movable blade base 47, a pair of left and right spring pieces 48, and the drive of the vibrator 30. It comprises a passive piece 49 that engages with the piece 31. The fixed blade 14 is fixed to a pair of left and right fixed blade bases 46, and the movable blade 15 is fixed to the movable blade base 47 and is slidably driven along the inner surface of the fixed blade 14 in the left-right direction. In order to bring the movable blade 15 in sliding contact with the fixed blade 14, a pair of left and right spring pieces 48 fixed to the lower surface of the fixed blade base 46 press and urge the movable blade 15 toward the fixed blade 14. The center blade 16 is a unit in which the fixed blade 14, the pair of left and right fixed blade bases 46, and the pair of left and right spring pieces 48 are integrally assembled with the movable blade 15 and the movable blade base 47 accommodated therein. It has become. The passive piece 49 is connected via the rotary shaft 50 in a state in which the connecting protrusion 51 in the shape of a U-shaped on the passive piece 49 is engaged with the connecting recess 52 formed on the movable blade base 47. Thus, the connecting angle between the two 47 and 49 can be changed. The center blade 16 is a float structure provided between the center blade 16 and the unit holder 20, and is supported so as to be able to tilt forward and backward and to move up and down. The passive piece 49 is disposed between the front and rear reinforcing walls 38, and even if the center blade 16 tilts back and forth and the connection angle of the movable blade base 47 and the passive piece 49 changes, the passive piece 49 takes a vertical posture. The reciprocating power of the drive piece 31 can be transmitted to the movable blade base 47.

  As shown in FIGS. 3 and 6, the float structure has a movable float body 55, a guide 56 that defines the tilt limit and the upper limit of the movable float body 55, and left and right that urge the center blade 16 to return to the neutral position. A pair of float springs 57 is included. The movable float body 55 is formed on each of the outer surfaces of the pair of left and right fixed blade bases 46, and includes a pair of front and rear tilt fulcrum portions 58 and a tilt restriction portion 59. The guides 56 are respectively formed on the left wall 35 and the right wall 36 of the unit holder 20, and are constituted by restriction holes 60 that allow the tilting fulcrum part 58 and the tilting restriction part 59 to be tilted back and forth and vertically. The float spring 57 is composed of a compression coil spring and is disposed between the spring seat 39 described above and the fixed blade base 46 to urge the center blade 16 upward. .

  As shown in FIGS. 1 and 6, the pair of front and rear tilting fulcrum portions 58 and the tilting restriction portions 59 are each formed by a round shaft-like protrusion. Specifically, provided as a front and rear pair of front fulcrum shaft 61 and rear fulcrum shaft 62 functioning as a front tilt fulcrum 58 and a rear tilt fulcrum 58, and below both fulcrum shafts 61 and 62, The lower fulcrum shaft 63 functions as the tilt restricting portion 59. Assuming an inverted triangular region connecting the peripheral surfaces of the front fulcrum shaft 61, the rear fulcrum shaft 62, and the lower fulcrum shaft 63, the portions other than the axes 61, 62, and 63 in the inverted triangular region are as follows. It is formed to be a space. In addition, each shaft 61, 62, and 63 only needs to be formed in a circular arc shape in a portion that comes into contact with the upper wall 65, the front wall 66, and the rear wall 67. The shafts 61, 62 and 63 may be connected by forming a portion.

  The restriction hole 60 has an upper wall 65 that defines the upper limit of movement of the movable float body 55 and a pair of front and rear that extends downward from both ends of the upper wall 65 and defines the tilt limit of the movable float body 55 in the front-rear direction. The front wall 66 and the rear wall 67 are included. The pair of front and rear front walls 66 and rear wall 67 also serve as a guide when the center blade 16 moves up and down. The center blade 16 is supported such that the fulcrum shafts 61, 62, and 63 are inserted into the restriction holes 60 so as to tilt forward and backward and to move up and down. The front wall 66 and the rear wall 67 include a straight portion 68 formed substantially in parallel, and a tapered portion 69 formed below the straight portion 68 so that the front wall 66 and the rear wall 67 are formed in a constricted shape. It consists of The tapered portion 69 of the front wall 66 and the rear wall 67 is connected at the lower end. The front-rear dimension of the straight line portion 68 is set to be the same as or slightly larger than the dimension defined by the front-rear width of the front fulcrum shaft 61 and the rear fulcrum shaft 62. The center blade 16 in the free state is held at the neutral position by the front wall fulcrum 61 and 62 received by the upper wall 65 by the biasing force of the float spring 57.

  Here, the vertical movement of the center blade 16 supported by the float structure so as to be tiltable back and forth and to be movable up and down will be described. As shown in FIG. 6, when a vertical force is applied to the center blade 16 in the neutral position, the center blade 16 slides downward while the front and rear fulcrum shafts 61 and 62 are guided by the front and rear walls 66 and 67. To do. When the vertical force is released from this state, the center blade 16 slides upward while the front and rear fulcrum shafts 61 and 62 are guided by the front and rear walls 66 and 67 by the biasing force of the float spring 57, and the front and rear The fulcrum shafts 61 and 62 are received by the upper wall 65 and returned to the neutral position. When the center blade 16 is held at the neutral position, the front and rear fulcrum shafts 61 and 62 formed in a round shaft shape are in line contact with the upper wall 65, respectively. Similarly, the front fulcrum shaft 61 and the front wall 66 and the rear fulcrum shaft 62 and the rear wall 67 are also in line contact with each other. Accordingly, the center blade 16 that is urged to return to the neutral position by the float spring 57 is held at the neutral position while being supported in a line contact manner at four points. Without waking up, it is securely held in the neutral position.

  Next, the front-back tilting of the center blade 16 will be described. When a horizontal forward force is applied to the center blade 16, the center blade 16 tilts forward about the rear fulcrum shaft 62 (see FIG. 1). Further, when the center blade 16 tilts forward, the lower fulcrum shaft 63 contacts the rear wall 67 and the tilt is restricted. When the horizontal force is released from this state, the center blade 16 is tilted rearward about the rear fulcrum shaft 62 by the urging force of the float spring 57 and returns to the neutral position. Conversely, when a horizontal backward force is applied to the center blade 16, the center blade 16 tilts rearward about the front fulcrum shaft 61. Further, when the center blade 16 tilts rearward, the lower fulcrum shaft 63 contacts the front wall 66 and the tilting is restricted. When the horizontal force is released from this state, the center blade 16 is tilted forward about the front fulcrum shaft 61 and returned to the neutral position by the biasing force of the float spring 57.

  If the center blade 16 that mainly cuts long hairs and comb hairs is supported so as to be able to tilt back and forth between the main blades 13 and 13 that mainly cut short hairs, for example, when the center blade 16 is tilted forward, A space can be formed between the main blade 13 and the center blade 16. When the skin surface falls into this space, the contact area between the skin surface and the main blade 13 can be increased, so that the short hair can be effectively cut by the main blade 13. In addition, since the skin surface is stretched by the skin surface dropping and long hairs and comb hairs can be raised from the skin surface, it becomes easier to capture the long hairs and hairs with the center blade 16, and the long hair shavings and hairs are effectively prevented. You can shave.

  The center blade 16 can move up and down while being tilted forward or backward, and at this time, the front fulcrum shaft 61 or the rear fulcrum shaft 62 moves up and down while being guided by the front wall 66 or the rear wall 67. When moving up and down while tilting to either the front or rear tilt limit, the shafts 61, 62, and 63 are formed into round shafts, so the front fulcrum shaft 61 or the rear fulcrum shaft 62 and the lower fulcrum shaft 63 are It moves up and down in line contact with the front wall 66 or the rear wall 67, respectively. Therefore, since the sliding resistance during the vertical movement can be reduced, the vertical movement can be performed smoothly even when the center blade 16 is tilted. Further, when the center blade 16 approaches the lower movement limit, the lower fulcrum shaft 63 is guided by the taper portion 69 and the posture of the center blade 16 is forcibly changed so that the posture of the center blade 16 becomes an upright state.

  As described above, the tilt center and tilt limit when the center blade 16 tilts to the front side, and the tilt center and tilt limit when tilted to the rear side can be set, respectively. Therefore, during forward shaving and reverse shaving The optimum tilt center position and tilt limit can be set, and the fixed blade 14 provided on the center blade 16 can be efficiently shaved along the skin surface accurately.

  As shown in FIGS. 4 and 7, the movable blade 15 is formed by etching using a metal sheet as a raw material, and is formed in a saw blade shape by alternately providing a plurality of cutting blades 71 and slits 72. Yes. The cutting blade 71 and the slit 72 are formed side by side in the left-right direction with respect to both front and rear edges of the base frame 73 at the front-rear center of the movable blade 15. As shown in FIG. 5, the movable blade 15 is integrally provided with a connecting claw 74 that bends obliquely downward from the left and right ends of the base frame 73, and the connecting claw 74 is inserted into a connecting hole 75 formed in the movable blade base 47. The movable blade 15 is integrated with the movable blade base 47 by the insertion engagement. The movable blade 15 may be a slit blade-shaped movable blade 15 that is formed in an inverted U-shaped cross section and in which a plurality of cutting blades 71 and slits 72 are alternately provided.

  As shown in FIGS. 4 and 7, the fixed blade 14 is formed by etching using a metal sheet as a raw material, and is formed in an inverted U-shaped cross section by pressing the blade blank. The fixed blade 14 is integrally provided with an upper blade wall 77 and a front side wall 78 and a rear side wall 79 continuous to the front and rear edges of the upper blade wall 77, and the upper blade wall 77 and the front and rear side walls 78 and 79 are adjacent to each other. The part is rounded. Rib-shaped small blades 80 and slit-shaped blade holes 81 are alternately formed on the front and rear edges of the upper blade wall 77. Reinforcing ribs 82 that are continuous in the left-right direction are formed in the front-rear center of the upper blade wall 77. A group of small blades 80 and blade holes 81, which are divided forward and backward by the reinforcing ribs 82 and perpendicular to the front and rear edges of the ribs 82, are formed to be staggered. A groove-like recess 83 is formed on the upper surface of each blade 80. The recess 83 is formed from the upper surface portion of the small blade 80 excluding the rounded adjacent portion to the blade hole 81. On the side wall 85 of the blade hole 81 in the upper blade wall 77 portion, a minute corrugated ridge holding portion 84 that holds the ridge introduced into the blade hole 81 is formed.

  In the above embodiment, the center blade 16 is arranged at the center in the front-rear direction of the razor head 3 and at the center of the two main blades 13, 13, but this is not necessary, and the center blade 16 is displaced back and forth from the center of the razor head 3. You may arrange in the state. Further, the center blade 16 may be arranged in the state of being close to any one of the main blades 13. Furthermore, in the form in which the three main blades 13 are disposed, the center blade 16 can be disposed between one or both of the adjacent main blades 13 and 13. In short, the center blade 16 is arranged between the adjacent main blades 13 and 13 regardless of the number of the main blades 13.

  As described above, the electric shaver according to the present embodiment enables the cutting blade unit 16 to tilt forward and backward with either one of the front tilting fulcrum 58 and the rear tilting fulcrum 58 as the tilting center. Therefore, when the cutting blade unit 16 tilts back and forth, tilt trajectories with the tilt fulcrum 58 different in the front and back can be set respectively. Therefore, it is possible to optimize the tilting trajectory of the cutting blade unit 16 so that the fixed blade 14 accurately follows the skin surface in both the forward shave and the reverse shave, and an electric razor capable of efficiently shaving. can do.

  When the pair of front and rear tilting fulcrum portions 58 are received and supported by the upper wall 65, the front wall 66, and the rear wall 67 in a state where the cutting blade unit 16 is held at the neutral position, the cutting blade unit 16 is tilted in a pair of front and rear. The fulcrum portion 58 is held at the neutral position while being in contact with the front and rear walls 66 and 67 while being controlled to move upward by the upper wall 65. At this time, the pair of tilting fulcrum portions 58 and the walls 65, 66, and 67 are in contact with each other at least at two locations, so that the cutting blade unit 16 can be stably held. Therefore, the cutting blade unit 16 can be securely held in the neutral position without wobbling, and vibrations and driving sounds due to minute back-and-forth vibrations of the cutting blade unit 16 are prevented, and the electric razor is silenced. can do.

  In addition to the above, when the cutting blade unit 16 is tilted back and forth to the limit position, either the front or rear tilt fulcrum portion 58 and the tilt restriction portion 59 are received by either the front wall 66 or the rear wall 67. Then, the limit of the upward movement of the movable float body 55 and the forward and backward tilting can be defined only by the tilting fulcrum part 58 and the tilting restriction part 59 and the restriction hole 60. Therefore, the limits of upward movement and forward / backward tilt can be defined with a simple configuration, and the manufacturing cost of the electric razor can be reduced.

  By configuring the restriction hole 60 provided in the guide 56 so as to allow the tilting fulcrum portion 58 and the tilting restriction portion 59 to move up and down, the cutting blade unit 16 is supported by the restriction hole 60 so as to be movable up and down. Since the upward movement of the unit 16 can be restricted, the manufacturing cost of the electric razor can be reduced.

  Assuming an inverted triangular region connecting the peripheral surfaces of the front fulcrum shaft 61, the rear fulcrum shaft 62, and the lower fulcrum shaft 63, a portion excluding the shafts 61, 62, and 63 in the region is a space. When the fulcrum shafts 61 and 62 and the lower fulcrum shaft 63 are in contact with the front and rear walls 66 and 67, line contact can be made, and sliding resistance can be reduced. Therefore, the vertical movement of the center blade 16 can be performed smoothly, and the fixed blade 14 can be precisely shaved along the skin surface accurately. Further, in a state where the front fulcrum shaft 61 and the rear fulcrum shaft 62 are received by the upper wall 65, the front wall 66 and the rear wall 67 and are held at the neutral positions, the fulcrum shafts 61 and 62 and the walls 65 and 66 are retained. -Since it comes into contact with 67 at four points, the cutting blade unit 16 can be securely held in the neutral position without wobbling. In addition, if the contact area between the fulcrum shafts 61, 62 and the walls 65, 66, 67 is small, dust such as fuzz is difficult to bite and the neutral position does not shift.

  In a state where the electric razor is strongly pressed against the skin surface, the cutting blade unit 16 is slid downward. In this state, when the cutting blade unit 16 tilts along the skin surface, the contact of the fixed blade 14 with the skin surface becomes too strong, and the skin surface may be attracted. Therefore, when the electric razor is strongly pressed against the skin surface, the lower fulcrum shaft 63 is guided by the tapered portion 69 to forcibly change the posture of the cutting blade unit 16 to the upright state, thereby This can prevent the surface from becoming too strong and prevent the skin surface from sticking.

Second Embodiment FIGS. 8 and 9 show a second embodiment of an electric razor according to the present invention. This embodiment is different from the first embodiment in that a reciprocating main blade (cutting blade unit) 86 is used instead of the rotary main blade 13 of the first embodiment. Further, similarly to the center blade 16, the reciprocating main blade 86 is supported by a float structure so as to be able to tilt forward and backward and to be movable up and down, which is different from the first embodiment. The reciprocating main blade 86 includes an outer blade (fixed blade) 87 having a net-like cutting blade formed on a sheet body and an inner blade (movable) that is slidably driven along the inner surface of the outer blade 87 in the left-right direction. Blade) 88, an outer blade support 89 that supports the outer blade 87 in an arch shape with the upper and lower sides opened, an inner blade base 90 that supports the inner blade 88, and the like. A passive rib 91 that engages with the drive piece 31 is formed on the inner blade base 90, and a spring 92 that pushes up and biases the inner blade 88 is disposed between the drive piece 31 and the inner blade base 90. Yes. A front fulcrum shaft 61, a rear fulcrum shaft 62, and a lower fulcrum shaft 63 are formed on the left and right side surfaces of the outer blade support 89, and are tilted back and forth while being inserted into the restriction holes 60 formed in the unit holder 20. , And are supported to be movable up and down. The spring 92 that pushes up and biases the inner blade 87 also serves as a float spring 57 that biases the reciprocating main blade 86 back to the neutral position. Since the other points are the same as in the first embodiment, the same reference numerals are given to the same members, and the description thereof is omitted.

(Third Embodiment) FIGS. 10 to 13 show a third embodiment of an electric shaver according to the present invention. In the present embodiment, the center blade 16 is eliminated, and the razor head 3 is provided with one reciprocating main blade (cutting blade unit) 86, which is supported by a float structure so as to be able to tilt forward and backward and to move up and down. The point that the decorative frame 19 and the unit holder 20 are integrated and the guide 56 is formed is different from the second embodiment. A bottom cover 95 having an opening 94 at the center is provided in the lower opening of the outer blade support 89, and a pair of left and right that push up and bias the inner blade 88 so as to face the opening 94 of the bottom cover 95. An elastic arm 96 is formed integrally with the bottom lid 95. The drive piece 31 is connected to a connection recess 52 formed in the inner blade base 90 and transmits reciprocating power to the inner blade 88. A pair of front and rear fulcrum shafts 61 and 62 and a lower fulcrum shaft 63 constituting the movable float body 55 are formed on the left and right side surfaces of the outer blade support 89. Since the other points are the same as in the second embodiment, the same members are denoted by the same reference numerals, and the description thereof is omitted.

  According to the electric razor of this embodiment, as shown in FIG. 13, when the electric razor is moved upward from below during shaving, one reciprocation supported by the razor head 3 so as to be able to tilt back and forth and move up and down. Since the main blade 86 is tilted in the direction opposite to the traveling direction of the electric razor, the vicinity of the top of the outer blade 87 can be brought into contact with the skin surface without greatly tilting the posture of the main body case 2. In the reciprocating main blade 86, the vicinity of the top portion of the outer blade 87 is a portion with high cutting efficiency of the wrinkles, so that the wrinkles can be cut along the skin surface positively.

(Fourth Embodiment) FIGS. 14 and 15 show a fourth embodiment of an electric shaver according to the present invention. In the present embodiment, the center blade 16 is eliminated, and the razor head 3 is provided with one reciprocating main blade (cutting blade unit) 86, which is supported by a float structure so as to be able to tilt forward and backward and to move up and down. This is different from the previous second embodiment. Further, the front and rear walls 33 and 34 of the unit holder 20 are abolished, and a pair of left and right unit holders 20 is provided, and a reciprocating main blade 86 has a built-in inner blade driving device 97 for driving the inner blade 88. This is different from the previous second embodiment.

  In the present embodiment, a linear motor type inner blade driving device 97 is disposed between the inner blade base 90 and the bottom lid 95, and the inner blade 88 is driven to reciprocate by the inner blade driving device 97. The float structure is provided separately in a forward / backward tilt structure and a vertical motion structure. The unit holder 20 is formed in a plate-like body and is provided on the left and right, and a regulation hole 60 is provided on each of the left and right unit holders 20. On the left and right side surfaces of the outer blade support 89, a movable float body 55 including a pair of front and rear tilt fulcrum portions 58 and a tilt restriction portion 59 is projected, and the movable float body 55 has rounded corners. It is formed with an inverted triangular projection. The movable float body 55 is supported so that the reciprocating main blade 86 can be tilted back and forth while being inserted into the restriction hole 60.

  Between the unit holder 20 and the movable float body 55, a leaf spring type tilt return spring 98 for returning the forward / backward tilt of the reciprocating main blade 86 to the neutral position is disposed. A slide shaft 99 projects downward from the front and back of the unit holder 20, and the unit holder 20 is supported by a slide hole 100 provided in the head frame 18 so as to be vertically slidable. ing. A slide spring 101 is disposed between the unit holder 20 and the head frame 18 to urge the unit holder 20 back to the upper movement limit position. The restriction hole 60 constituting the guide 56 according to the first to third embodiments guides both forward and backward tilting and vertical movement, but the restriction hole 60 constituting the guide 56 of this embodiment is a movable float. Only the forward / backward tilt of the body 55 is guided, and the movable float body 55, the guide 56, and the tilt return spring 98 constitute a back-and-forth tilt structure of the reciprocating main blade 86. The vertical movement structure of the reciprocating main blade 86 includes a slide shaft 99, a slide hole 100, and a slide spring 101. A float structure is constituted by the forward / backward tilt structure and the vertical motion structure. Since the other points are the same as in the second embodiment, the same members are denoted by the same reference numerals, and the description thereof is omitted.

Fifth Embodiment FIG. 16 shows a fifth embodiment of the electric razor according to the present invention. In the present embodiment, instead of the leaf spring type tilt return springs constituting the longitudinal tilt structure of the fourth embodiment, two compression coil type tilt return springs 98 are adopted. Is different. A compression coil-type tilt return spring 98 is disposed before and after the movable float body 55 to urge the reciprocating main blade 86 to return to the neutral position. Since the other points are the same as in the fourth embodiment, the same reference numerals are given to the same members, and the description thereof is omitted. In the present embodiment, when the tilt return springs 98 having different spring constants are arranged at the front and rear, the reciprocating main blade 86 returns from the state tilted to the front side, and returns from the state tilted to the rear side. The return force can be different.

  FIG. 17 shows another embodiment of the float structure according to the first to third embodiments. In FIG. 17A, the angle is formed by the fulcrum shafts 62, 61, 63 having the front fulcrum shaft 61 as the apex, and the fulcrum shafts 61, 62, 63 having the rear fulcrum shaft 62 as the apex. The lower fulcrum shaft 63 is arranged so that the angle is different. According to this, the limit angle when tilting to the front side and the limit angle when tilting to the rear side can be set differently.

  In FIG. 17B, the front fulcrum shaft 61 and the rear fulcrum shaft 62 are arranged at different height positions, and the upper wall 65 is formed so as to be inclined from the horizontal. In addition, the upper side of the front wall 66 is formed in an arc shape so that the cutting blade unit 16 (86) can tilt forward and backward. Thus, if the height positions forming the front and rear fulcrum shafts 61 and 62 are different, the distance from the upper end of the cutting blade unit 16 (86) to the front and rear fulcrum shafts 61 and 62 can be varied. Therefore, it can be set so that the tilting trajectory before and after the cutting blade unit 16 (86) can be further optimized along the skin surface. In the present embodiment, the cutting blade unit 16 (86) is already tilted at the neutral position, and can be tilted back and forth from this state. Although not shown, the distance in the horizontal direction from the center in the front-rear direction of the cutting blade unit 16 (86) to the front and rear fulcrum shafts 61 and 62 can also be varied.

  In FIG. 17C, the movable float body 55 is configured by a restriction hole 60 formed in the fixed blade base 46, and the front fulcrum shaft 61 and the rear fulcrum shaft 62 formed in the unit holder 20, and the upper fulcrum shaft 64. And composed. In this case, the fulcrum shafts 61, 62, and 64 are arranged in a triangular shape, and the front and rear walls 66 and 67 are formed so that the tapered portion 69 is positioned on the upper side. The center blade 16 urged to return to the neutral position by the float spring 57 is held at the neutral position by the lower wall 70 of the restriction hole 60 being received by the front and rear fulcrum shafts 61 and 62.

  In FIG. 18 (a), a pair of tilting fulcrum portions 58 and a tilting restricting portion 59 constituting the movable float body 55 are formed by one protrusion, and a pair of tilting fulcrum portions 58 each formed in an arc shape, The tilt regulating portion 59 is arranged in an inverted triangle shape, and the peripheral surfaces of the pair of tilt fulcrum portions 58 and the tilt regulating portion 59 are connected by an indented R surface. According to this, even when the movable float body 55 is formed by one projection, the movable float body 55 and the walls 65, 66, and 67 can be in line contact.

  In FIG. 18B, the pair of tilting fulcrum parts 58 and the tilting restriction part 59 constituting the movable float body 55 are formed by one projection, and the pair of tilting fulcrum parts 58 and the tilting restriction part 59 are formed. Each of them was formed in an inverted triangle shape as an acute corner, and the sides of the inverted triangle were connected by an indented R surface. According to this, similarly to the above, even when the movable float body 55 is formed by one protrusion, the movable float body 55 and the walls 65, 66, and 67 can be in line contact.

  In FIG. 18C, the inner concave R surface of FIG. 18A is eliminated, and the peripheral surfaces of the pair of tilting fulcrum portions 58 and the tilt regulating portions 59 are connected by a straight line. As described above, when the movable float body 55 is formed by one projection as shown in FIGS. 18A to 18C, compared to the case where the front and rear tilt fulcrum portions 58 and the tilt restriction portions 59 are provided individually. Thus, the structural strength can be improved and the movable float body 55 can be prevented from being damaged. Even when the pair of tilting fulcrum parts 58 and the tilting restricting part 59 are formed by a single protrusion, the restricting hole 60 is formed in the fixed blade base 46 and the pair of tilting fulcrum parts 58 and the tilting restriction are formed in the unit holder 20. The portion 59 may be formed.

  FIG. 19 shows another embodiment of the fixed blade 14 of the center blade 16 according to the first embodiment and the second embodiment. In FIG. 19A, the brushed portion 103 is formed on the side wall 85 of the groove-shaped recess 83 formed on the upper surface of each blade 80. The hair raising portion 103 was formed such that the left and right side walls 85 were formed in a corrugated shape, and the groove width repeated expansion and contraction.

  In FIG. 19B, the raised portion 103 formed on the side wall 85 of the recess 83 is formed such that the left and right side walls 85 are formed in a corrugated shape so that the groove width does not change. In this way, when the hair raising portion 103 formed in a wave shape is formed, vibration can be imparted to the heel guided by the recess 83, so that the heel sleeping along the skin surface can be firmly raised, and surely It can be introduced into the blade hole 81 and cut.

  In FIG. 19 (c), the left and right widths of the side walls 85 of the recesses 83 formed on the upper surface of each small blade 80 are formed so as to become wider as they move away from the blade hole 81, thereby forming the hair raising portion 103. Thus, it becomes easy to catch the wrinkles by widening the recess 83 at the guide start end portion of the wrinkles, and the caught wrinkles can be reliably guided to the blade hole 81 while wrinkles are generated in the hair raising portion 103. .

  The electric razor provided with the fixed blade 14 and the movable blade 15 according to the first embodiment and the second embodiment can be implemented in the following form. That is, an electric razor including a fixed blade 14 and a cutting blade unit 16 including a movable blade 15. The fixed blade 14 includes an upper blade wall 77 and a rib-shaped small blade 80 formed on the upper blade wall 77. And a slit-shaped blade hole 81, and a groove-shaped recess 83 is formed on the upper surface of the small blade 80 so as to extend along the central axis of the small blade 80 in the extending direction.

  As described above, when the groove-shaped recess 83 is formed on the upper surface of the small blade 80, the contact area between the upper blade wall 77 and the skin surface can be reduced during shaving, and the upper blade wall 77 and the skin surface can be reduced. Sliding resistance can be reduced. Therefore, the operation of the electric razor at the time of shaving can be performed lightly, and the skin surface can be prevented from scratching. Further, since the wrinkle that is sleeping along the skin surface can be caused by the recess 83, the wrinkle can be lifted from the skin surface and effectively introduced into the blade hole 81 of the fixed blade 14 to cut the wrinkle. it can.

  In addition, a reinforcing rib 82 that is continuous in the left-right direction is formed at the front-rear center of the upper blade wall 77, and a group of small pieces orthogonal to the front-rear edges of the rib 82 in a state where the reinforcing rib 82 is divided forward and backward. The blade 80 and the blade hole 81 are formed, and the small blade 80 and the blade hole 81 formed on the front and rear edges of the reinforcing rib 82 can take a form formed alternately.

  In this way, when the small blades 80 and the blade holes 81 formed at the front and rear edges of the reinforcing rib 82 are alternately formed, for example, when shaving by moving the electric razor backward, Since the scissors that have passed over the small blade 80 without being introduced into the blade hole 81 can be introduced into the front blade hole 81 and cut, it is possible to cut more scissors with a single operation. In addition, since the ridge passing over the small blade 80 is guided by the recess 83, it can be more reliably introduced into the front blade hole 81.

  The form which the recessed part 83 formed in the upper surface of the small blade 80 may be formed so that it may face the blade hole 81 which opposes on both sides of the reinforcement rib 82 can be taken. According to this, the scissors that pass over the small blade 80 and are guided by the concave portion 83 can be reliably introduced into the blade hole 81 on the opposite side and cut.

  A form in which a recess 83 is formed on the upper surface of the small blade 80 excluding the vicinity of the front and rear end portions of the upper blade wall 77 can be adopted. According to this, since the front and rear end portions of the upper blade wall 77 are easily in contact with the skin surface and the area in contact with the skin surface is small, if the concave portion 83 is formed in this portion, the skin surface may be damaged by the concave portion 83. There is. Therefore, by forming the recess 83 on the upper surface of the small blade 80 excluding the vicinity of the front and rear end portions of the upper blade wall 77, smooth skin contact can be achieved without damaging the skin surface. Further, the strength of the fixed blade 14 can be improved by preventing the strength of the front and rear end portions of the upper blade wall 77 from decreasing due to the reduction of the cross-sectional area due to the formation of the recess 83.

  The recess 83 can be formed so that the lateral width increases as the distance from the blade hole 81 increases. According to this, it becomes easy to catch the wrinkles by widening the recess 83 at the guide start end portion of the scissors, and the trapped scissors can be reliably guided to the blade hole 81 by gradually reducing the width of the recess 83. it can. Therefore, it is possible to enhance the effect of introducing the wrinkles into the blade hole 81 by the recess 83, and to reliably introduce the wrinkles into the blade hole 81.

  It is possible to adopt a form in which corrugated hair raising portions 103 that cause wrinkles guided by the concave portion 83 are formed on the left and right side walls 85 of the concave portion 83. According to this, since the hair raising portion 103 formed in a wave shape can impart vibration to the heel guided by the concave portion 83, the heel sleeping along the skin surface can be firmly raised, and reliably It can be introduced into the blade hole 81 and cut.

2 Body case 3 Razor head 14 Fixed blade 15 Movable blade 16 Cutting blade unit (center blade)
20 Unit holder 77 Upper blade wall 80 Small blade 81 Blade hole 82 Reinforcing rib 83 Recess

Claims (5)

It has a fixed blade (14) in which small blades (80) and slit-shaped blade holes (81) are alternately formed, and a movable blade (15) that is in sliding contact with the inner surface of the fixed blade (14). ,
An electric shaver characterized in that a recess (83) is formed on the upper surface of the small blade (80).   The electric shaver according to claim 1, wherein the recess (83) is formed in a groove shape and along the axis of the blade (80). The fixed blade (14) includes an upper blade wall (77),
Small blades (80) and slit-shaped blade holes (81) are formed alternately on the upper blade wall (77),
Reinforcing ribs (82) continuous in the left-right direction are formed in the front-rear center of the upper blade wall (77),
The small blade (80) and the blade hole (81) formed on the front and rear edges of the reinforcing rib (82) are formed so as to alternate with each other,
The recess (83) formed on the upper surface of the small blade (80) is formed so as to face the opposing blade hole (81) with the reinforcing rib (82) in between. 2. The electric razor according to 2.   The electric shaver according to claim 3, wherein a recess (83) is formed on an upper surface of the small blade (80) excluding the vicinity of front and rear end portions of the upper blade wall (77).   The electric shaver according to claim 3 or 4, wherein the recess (83) is formed in a corrugated shape.

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