JP3861796B2 - Electric razor movable head holding structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a movable head holding structure for an electric razor in which a blade is brought into close contact with skin during shaving by moving the head portion relative to a grip portion.
[0002]
[Prior art]
Conventionally, in this type of electric razor, in the method of separating the head part and the grip part and swinging the head part left and right, the motor part built in the lower side of the head part is covered with the grip part, The amount of movement of the head portion from side to side is greatly restricted, and there is a problem that the function cannot be sufficiently exhibited in the followability to the skin.
[0003]
Conventionally, many structures have been proposed for bringing the blade into close contact with the skin during shaving by causing the head portion to move relative to the grip portion. As a typical example, a motor and a head unit are integrated, and the head unit is supported by front and rear walls of a grip unit so as to be rotatable left and right (see, for example, Patent Document 1).
[0004]
As in Patent Document 1, in the case where the motor and the head unit are integrated and the head unit is supported by the front and rear walls of the grip unit so as to be rotatable left and right, the motor integrated with the head unit enters the back of the grip case. Therefore, the upper surface of the grip case has a large open shape, and the bottom surface of the head portion is formed with the same R surface as the open surface to cover the open surface, and the head portion moves only along the R surface. It is possible. Therefore, the movement of the head portion with respect to the grip portion is very limited, and there is a problem that the followability to the skin cannot be greatly improved. In addition, the width of the grip part is considerably large so that the motor accompanying the left-right rotation of the head part can move sufficiently in the grip case, but the grip part becomes wider than the head, which is extremely There is also a problem that it becomes difficult to hold.
[0005]
As another conventional example, for the purpose of improving the follow-up with respect to changes in the left and right and up and down directions of the skin surface, the head and the head can be moved to the left and right and up and down with respect to the grip as a single unit. What is supported is known (for example, refer to Patent Document 2).
[0006]
However, even in Patent Document 2, the motor unit integrated with the head unit penetrates deeply into the grip unit. Therefore, when the motor unit is to be rotated largely in the left-right direction, the motor is mounted on the grip case. Since it hits the inner surface, there is a problem that only a small free angle of rotation in the left-right direction can be secured.
[0007]
In addition, there is a motor in which the motor is disposed in the blade head case and is supported so as to be rotatable in the front-rear direction around a rotation shaft provided near the upper end of the head (for example, WO00 / 38891). However, in this configuration, the rotation direction of the head portion is the front-rear direction, and when the head portion rotates, the lower end portion protrudes larger than the grip portion. In this state, in order to prevent a finger having a grip part from hitting, it is necessary to make the head part considerably small. In this case, a normal motor does not provide sufficient power, resulting in poor sharpness. End up. In addition, the configuration where the rotation axis position is on the lower side is also conceivable, but in that case, depending on how to shave, the operation of rotating the head part away from the skin occurs, and the result does not perform the function in actual use. End up.
[0008]
[Patent Document 1]
JP-A-6-343776
[Patent Document 2]
Japanese Patent Laid-Open No. 10-43443
[0009]
[Problems to be solved by the invention]
The present invention has been made in view of these points, and the object of the present invention is to increase the amount of movement of the head so that it can follow the skin no matter how it is shaved, and is also dustproof and waterproof. It is an object of the present invention to provide a movable head holding structure of an electric razor that can be surely performed.
[0010]
[Means for Solving the Problems]
  In order to solve the above-mentioned problem, in the present invention, in an electric razor in which a head part A having a motor 5 and a blade is movably supported with respect to the grip part B, the head part is provided inside the grip part B. A box-shaped space 110 located below the bottom surface of A is formed, and front and rear walls 21a and 24a extending upward from the box-shaped space 110 are provided, and the head portion A is moved back and forth by the front and rear walls 21a and 24a. Hold in the direction EA biasing element is provided between the head part A and the upper surface side of the box-shaped space 110 of the grip part B. The biasing element includes a head support member 43 that is rotatably coupled to the head part A, and a head support. A member 43 is held by guide grooves 46 and 47 formed inside the front and rear walls 21a and 24a of the grip portion B so as to be movable up and down, and a spring block 50 that springs the head support member 43 upward is provided. And the head support member 43 is held by the guide grooves 46 and 47 so as to be movable up and down, whereby the head portion A can be rotated and moved up and down.With this configuration, the head portion A can be reliably supported against the pressing of the head portion A in the front-rear direction E, and the front and rear walls 21a, 24a of the grip portion B can be supported with fingers. Since it is possible to shave in a pinched state, the finger does not obstruct the movement of the head part A. Therefore, the movement of the head part A is increased so that it can follow the skin no matter how it is shaved. Therefore, the skin following performance is greatly improved, and the box-shaped space 110 of the grip portion B and the head portion A are independently configured, so that dustproof and waterproofing can be reliably performed.In addition, since the biasing element provided between the head part A and the upper surface side of the box-shaped space 110 of the grip part B does not affect the thickness of the grip part B, a slim grip part B that is very easy to hold is provided. It can be formed, and the float operation of the head part A is stabilized. Further, the urging element holds the head support member 43 rotatably coupled to the head portion A by guide grooves 46 and 47 formed inside the front and rear walls 21a and 24a of the grip portion B so as to be movable up and down. Since the head support member 43 is spring-biased upward, the head portion A can be smoothly rotated and moved up and down.
[0013]
Further, it is preferable to provide a plurality of the head support members 43 in the left-right direction F of the head part A. In this case, a head support member 43 different from the head support member 43 on the skin contact side serves as a rotation axis, and the head part. The force that tilts A to the left and right is increased, and the skin followability is improved.
[0014]
The elastic member 100 is preferably disposed on the upper end side of the guide groove 46 that guides the head support member 43. In this case, when the head support member 43 moves along the guide groove 46, the floated head support member is provided. The elastic member 100 can relieve the impact when 43 returns, and the impact and sound on the hand can be reduced.
[0015]
In addition, the grip part B preferably includes a box-shaped space 110 and front and rear walls 21a and 24a extending upward from the two front and rear housings 21 and 24. In this case, the front and rear two housings 21 and 24 can simultaneously hold the head portion A and form the box-shaped space 110 of the grip portion B, which facilitates assembly and increases the head holding rigidity because the front and rear walls 21a and 24a serve as support walls for the head portion A. The shaving performance is stabilized and the number of parts can be reduced.
[0016]
Further, it is preferable to provide a protruding portion 12a that protrudes downward from both sides of the bottom surface near the center of the bottom surface of the head portion A. In this case, a shaft that supports the head portion A is formed on the protruding portion 12a, and the protruding portion 12a By raising the positions of the lower surfaces of both outer sides upward, the right and left inclination of the head part A can be further increased, and the followability to the skin is improved.
[0017]
Further, it is preferable to cover the protruding portion 12a of the head portion A with the front and rear walls 21a and 24a of the grip portion B from the front-rear direction E. In this case, the movement of the head portion A can be easily confirmed during shaving, and wrinkles are not easily collected.
[0018]
In addition, it is preferable that the width dimension L1 in the left-right direction F of the front and rear walls 21a, 24a is shorter than the width dimension L2 in the left-right direction F of the grip part B. The possibility of entering the lower movable range of A is greatly reduced, and the grip performance can be ensured without the finger hitting the head part A and hindering the movement of the head part A.
[0019]
In addition, it is preferable to provide a mechanism for holding the head portion A in the front-rear direction E on one of the front and rear walls 21a, 24a. In this case, the head portion A is always attached even if the pitch between the front and rear walls 21a, 24a varies. It can hold | maintain with one wall 21a or 24a, and can prevent rattling.
[0020]
Further, it is preferable to extend a protrusion 90 that slides against one of the front and rear walls 21a and 24a and prevents the head part A from tilting in the front-rear direction E from the lower back of the head part A. The head portion A can be prevented from tilting in the front-rear direction E. Therefore, even when a force in the front-rear direction E is applied to the head portion A during shaving, the protrusion 90 prevents the head portion A from tilting back and forth and making it difficult to shave. be able to.
[0021]
Further, a waterproof structure is provided between the head portion A and the box-shaped space 110 of the grip portion B, and the head portion A and the grip portion B are coupled by the elastic tube 20, and the grip portion is attached to the head portion A in the elastic tube 20. It is preferable to pass the electric wiring for supplying the electric power from B. In this case, the electric power from the grip part B is supplied to the head part A in a waterproof state, and waterproofing is possible in a state where a large relative movement is possible. Thus, the cleaning property is improved.
[0022]
In addition, it is preferable to dispose an anti-slip portion 80 made of an elastomer at least in front of the grip portion B. In this case, when the grip portion B is gripped with a finger, the thumb is disposed exactly at that position, and grip performance is improved. Improves and makes it easier to shave. Therefore, it is possible to provide a very stable grip feeling that is difficult to slip.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.
[0024]
As shown in FIG. 1, the electric razor 1 of the present embodiment is roughly composed of a blade head block 2 and a grip block 3, and supports the blade head block 2 near the upper end in the grip block 3. A member is disposed. Here, as shown in FIG. 6, the blade head support block 4 is disposed between the blade head block 2 and the grip block 3.
[0025]
First, the configuration of the blade head block 2 will be described in detail with reference to FIGS.
[0026]
The blade head block 2 is roughly composed of a head case block 6 in which the linear motor 5 is housed, an inner blade 7 and an outer blade block 8, and the vibration of the linear motor 5 in the left-right direction F (FIG. 1). Is transmitted to the inner blade 7 by the driver 9 at the tip thereof, and the inner blade 7 and the outer blade 10 slide relative to each other, thereby cutting the wrinkles that have entered the blade hole of the outer blade 10. As shown in FIG. 5, the linear motor 5 is inserted into the head case 12 from the upper side in a state where the linear motor 5 is integrally coupled to the motor base 11, and is fixed by a head lower screw 13 from the lower side. .
[0027]
As shown in FIG. 5, the head case 12 is fixed with a head upper screw 17 through a head case cover 14, a driver waterproof rubber 15, and a rubber pressing plate 16 from above. By fixing the head case 12 with screws, the head case block 6 is configured as a single box body incorporating the linear motor 5. Further, a waterproof rubber (not shown) is provided on the lower surface of the head case cover 14, whereby the head case block 6 is configured as a waterproof case. As shown in FIG. 3, the lead wire 18 extending from the lower side of the linear motor 5 is coupled to the drive circuit in the grip block 3 at the tip end thereof in order to drive the linear motor 5. After the waterproof rubber tube 20 is inserted through a hole (not shown) provided in the lower part of the case 12, the front and rear housings pass through a hole 22 (FIG. 7) provided on the upper surface of the front housing 21 described later. 21 and 22 are connected to the circuit 19 (FIG. 3). The upper end of the rubber tube 20 is press-fitted into a cylindrical hole (not shown) provided on the bottom surface of the head case 12, and is then locked from the outside by a locking hole 23a (FIG. 5) of the head fixing member 23 described later. The lower end of 20 is press-fitted into a lead wire cylinder hole on the upper surface of the rear housing 24, and then inserted into a locking hole 25b (FIG. 7) of a click member 25 described later to be locked. That is, a waterproof structure is formed between the head portion A and the box-shaped space 110 of the grip portion B, and further, the head portion A and the grip portion B are coupled with the elastic tube 20, and the lead wire 18 is passed through the elastic tube 20 to waterproof. Since the electric power from the grip part B is supplied to the head part A in the state, waterproofing is possible in a state where a large relative movement is possible, and the cleaning property is improved.
[0028]
As shown in FIG. 5, the head case 12 has a protruding portion 12a in which only the vicinity of the center of the bottom surface protrudes downward. By forming a shaft for supporting the head portion A on the protruding portion 12a and raising the lower surface positions of both outer sides upward, the right and left inclination of the head portion A can be further increased, and the followability to the skin is also improved. It is something that can be done. In addition, since only the downward projecting portion 12a of the head case 12 is covered with the front and rear walls 21a and 24a, and there are gaps penetrating in the front and rear direction E on both outer sides, the movement of the head portion A is confirmed when shaving. It is easy to show that the head part A is greatly rotated to the left and right, and the structure is such that wrinkles are not easily collected. Further, the width dimension L1 (FIG. 2) of the front and rear walls 21a, 24a is smaller than the width dimension L2 (FIG. 2) of the grip portion B in the left-right direction F. This greatly reduces the possibility that the finger will enter the movable range below the head in the grip state with a normal hand, and the finger will hit the head part A without causing any hindrance to the movement of the head part A. It has a structure that can secure.
[0029]
Here, a mechanism for holding the head part A in the front-rear direction E and a mechanism for preventing backlash in the front-rear direction E will be described. A mechanism for holding the head portion A in the front-rear direction E is provided on the front wall 21a. In the example shown in FIG. 5, the head locking member 23 is attached to the head case block 6 by the pair of front and rear locking protrusions 27 of the head locking member 23 being locked to the convex portions 26 on both the front and rear surfaces of the head case 12. Further, projecting pieces 28, 28 projecting left and right are provided at the upper end of the front side of the head stopper member 23, and these projecting pieces 28, 28 are hooked on an opening 29 provided on the front wall 21 a of the front housing 21. The projecting piece 28 of the head stopping member 23 is locked to the front wall 21a, whereby the head case block 6 is held against the front housing 21 so as not to move in the front-rear direction E (FIG. 1). Therefore, even if the pitch between the front wall 21a of the front housing 21 and the rear wall 24a of the rear housing 24 varies, the head case block 6 is always held by the front wall 21a of the front housing 21, and the back and forth direction E rattles. Can be prevented. Further, a protrusion 90 (FIG. 7) is formed so as to extend downward from the lower back surface of the head stopper member 23, and this protrusion 90 is in sliding contact with the inner surface of the rear wall 24, whereby the head case block. 6 is prevented from tilting in the front-rear direction E. That is, the protrusion 90 is in sliding contact with the inner surface of the rear wall 24a of the rear housing 24, so that the head case block 6 is guided only in the vertical direction without being tilted in the front-rear direction E. Even if a force in the front-rear direction E is applied to A, the head part A does not tilt in the front-rear direction E, and it is possible to prevent the head part A from tilting back and forth and becoming difficult to shave as in the prior art.
[0030]
Further, as shown in FIG. 5, blade attachment / detachment buttons 30 are disposed on both longitudinal end faces of the head case 12. Each blade attaching / detaching button 30 is attached in a state of being biased outward by a blade attaching / detaching button spring 31 included in the head case 12.
[0031]
Next, the inner blade 7 will be described. The drive element 9 of the linear motor 5 protrudes upward from the hole in the central portion of the upper surface of the head case 12 shown in FIG. 5. A slit drive rod 32 and a trimmer drive rod 33 are provided from the front and rear directions to the drive element 9. It is attached. An inner blade push-up spring 34 is held in the driver 9 by a spring stopper 35, and the inner blade 7 is coupled to the upper blade 7 so that the inner blade 7 is urged upward.
[0032]
Next, the outer cutter block 8 will be described. As shown in FIG. 4, three blades are arranged in the order of the outer blade 10 (net blade), the slit blade 36, and the outer blade 10 (net blade) in the front-rear direction E, and these are arranged by a slit float spring 37. Each frame is held by a frame-shaped holding frame 38 so that it can float independently. The outer blade 10 is fixed by an outer blade frame 39, and the outer blade frame 39 is coupled to the holding frame 38 by a blade cover member 40. The outer blade block 8 is attached to the head case 12 by engaging the engaging protrusions 42 (FIG. 5) on the blade attaching / detaching button 30 with the engaging holes 41 provided at both ends in the left and right direction F of the holding frame 38. And is detachably held.
[0033]
Next, the configuration of the blade head support block 4 will be described in detail based on FIG. 3, FIG. 5, and FIG. As shown in FIG. 5, the head support member 43 is formed in a substantially U-shape, and a hole 44 is provided at the top end thereof. On the other hand, the front and rear walls of the head case 12 are provided with support projections 45 projecting in the front-rear direction E in two places, four places in total. The front and rear support protrusions 45 are formed at positions that are coaxial when viewed from the front.
[0034]
Here, two head support members 43 are arranged on the left and right sides, and the upper hole 44 is rotatable with respect to the support protrusion 45 of the head case 12 and the head case 12 is moved back and forth from the lower side. Are engaged with each other. Further, as shown in FIG. 3, each head support member 43 is fitted into a pair of left and right vertical guide grooves 46 and 47 formed on the front and rear walls 21a and 24a of the front and rear housings 21 and 24, respectively. Thus, the head support member 43 is held so as to be movable up and down while being sandwiched between the front and rear walls 21a and 24a.
[0035]
Here, the function of the two head support members 43 provided on the left and right can be described as follows. When the head part A is pressed at an angle different from the skin surface, both ends of the head part A hit the skin, and a force for lowering the head part A is generated. At this time, the fulcrum of rotation of the head part A is a distance from the power point because the head support member 43 on the opposite side to the side on which the skin hits is an axis, and the force for rotating the head part A is increased. growing. Therefore, since the head part A rotates with a light force until it is in line with the skin, the skin and the blade are brought into close contact with each other, and the electric razor 1 with no remaining shaving can be provided.
[0036]
Furthermore, in this example, an elastic member 100 (FIG. 7) made of elastomer is disposed on the upper end side of the guide groove 46 on the front wall 21a side. The elastic member 100 is provided at the upper end of the guide groove 46, and when the head support member 43 moves along the guide groove 46, the elastic member 100 reduces the impact when the floated head support member 43 returns. To reduce the impact and sound on the hand.
[0037]
Next, the spring block 50 that urges the head support member 43 will be described. As shown in FIGS. 3 and 7, two spring blocks 50 are provided on the left and right sides corresponding to each head support member 43, and one spring block 50 includes a coil spring 51 and a plate spring 52 on the upper and lower sides. It is held by a spring receiving member 53. The coil spring 51 is held by protrusions (not shown) provided on the upper and lower spring receiving members 53. The leaf spring 52 is formed in a substantially U shape, and one piece thereof is fixed by welding the protrusion of the upper spring receiving member 53. The lower spring receiving member 53 has two protruding portions (not shown) at positions where the coil spring 51 is sandwiched, and the tip hooks are holes (not shown) provided in the upper spring receiving member 53. And the spring block 50 is formed. The upper spring receiving member 53 of the spring block 50 hits the lower surface of the head supporting member 43, and the lower spring receiving member 53 hits the bottom surface of the box-shaped space 110 of the front and rear housings 21 and 24. It is supported from below by the spring block 50. With these configurations, the head case block 6 can be waterproofed in a state in which a large relative movement is possible, and the cleaning performance is improved. Further, by providing the head support member 43 and the spring block 50 constituting the biasing element between the upper surface side of the box-shaped space 110 of the head part A and the grip part B as described above, the biasing element is gripped. Since the thickness of the portion B is not affected, a slim grip portion B that is very easy to hold can be formed, and the head portion A can be supported over the entire thickness direction of the lower surface of the head portion A. The operation of A is stabilized. In addition, the head support member 43 rotatably coupled to the head portion A is held by guide grooves 46 and 47 formed inside the front and rear walls 21a and 24a of the housing so as to be movable up and down, and the head support member 43 is spring-blocked. When the spring is biased at 50, the head portion A can be rotated and moved up and down.
[0038]
Next, a mechanism for adjusting the spring force of the spring block 50 will be described. As shown in FIG. 3, a fan-shaped flat portion 63 and a hole 62 are formed on one side of the rear housing 24, and a lever shaft 64 is inserted into the hole 62. A lever operating element 66 is rotatably coupled to a protrusion 65 provided at the tip of the lever shaft 64, and the lever operating element 66 is disposed on the flat part 63 of the rear housing 24. When the lever shaft 64 is inserted inside the spring block 50 and the lever operator 66 is moved, the lever shaft 64 rotates and the tip height of the protrusion 67 provided on the lever shaft 64 changes. The entire spring block 50 can be expanded and contracted vertically to change the height of the lower surface of the spring receiving member 53 and the plate spring 52, thereby adjusting the float amount and the float force. Further, a protrusion 68 having a spherical shape is formed near the center of the lever shaft 64, and the protrusion 68 engages with the groove 25 a of the click member 25 attached to the lever shaft 64, The rotational position of the lever shaft 64 can be positioned while obtaining a click feeling.
[0039]
Next, the grip block 3 will be described in detail based on FIG. 1, FIG. 2, FIG. 3, and FIG. The grip block 3 is configured around housings 21 and 24 divided into front and rear, and the front and rear housings 21 and 24 are coupled with a rubber O-ring 55 (FIGS. 3 and 7) sandwiched therebetween, A waterproof box-like space 110 is formed inside, and front and rear walls 21a and 24a extend upward from the front and rear upper ends of the box-like space 110. The inner surfaces of these front and rear walls 21a and 24a are the heads. It is a holding part. In the box-shaped space 110 formed in the housings 21 and 24, as shown in FIG. 3, a battery 56, a circuit 19, a base 56a for holding them, and the like are arranged. The front and rear housings 21 and 24 are fixed by housing fixing screws 57 from the back side. In FIG. 3, 58 is a screw lid.
[0040]
A front panel 60 is coupled to the front surface of the front housing 21 with a hook provided on the front surface of the front housing 21 with the switch 59 interposed therebetween. A rear panel 61 is coupled to the rear surface of the rear housing 24.
[0041]
Further, as shown in FIGS. 2, 3, and 7, the trimmer block 70 is attached to the rear panel 61 so as to be slidable in the vertical direction, and at the upper position of the slide, the trimmer driver 71 (FIG. 3). Is coupled to a trimmer driving rod 33 (FIG. 5) provided on the blade head block 2 and driven.
[0042]
Thus, the head part A is held between the front and rear walls 21a and 24a of the grip part B that forms the box-shaped space 110 on the lower side, thereby preventing the head part A from being pressed in the front-rear direction E. However, since the head portion A can be reliably supported and the upper surface side of the box-shaped space 110 of the grip portion B and the head portion A are independently configured, dustproof and waterproofing can be reliably performed and the movement of the head portion A can be performed. Since it can be enlarged, the skin follow-up performance is greatly improved. Moreover, since the head portion A is sandwiched and held from the front and rear direction E by the front and rear walls 21a and 24a of the grip portion B, the front and rear walls 21a and 24a can be shaved with the fingers sandwiched between the fingers. It will not interfere with your movement.
[0043]
In this example, since the head support block is disposed between the head part A and the grip part B, the blade head block does not affect the thickness of the grip part B. The portion B can be formed, and the head portion A can be supported over the entire thickness direction of the lower surface of the head portion A, and there is an advantage that the operation of the head portion A is stabilized.
[0044]
Further, since the grip portion B has a box-shaped space 110 formed at the lower portion thereof by two front and rear housings 21 and 24, and front and rear walls 21a and 24a extending above the grip space B, the holding portion of the head portion A and the grip portion are formed. Since the box-shaped space 110 of B can be formed at the same time, it is easy to assemble. Further, since the support wall of the head portion A is formed integrally with the housing, the head holding rigidity can be increased, so that there is an advantage that the shaving performance is stabilized and the number of parts can be reduced.
[0045]
Further, since the width dimension L1 of the front and rear walls 21a, 24a is smaller than the width dimension L2 (FIG. 2) of the grip portion B in the left-right direction F, the finger can move below the head in the grip state with a normal hand. The possibility of entering the range is greatly reduced, and the grip performance can be ensured without the finger hitting the head part A and hindering the movement of the head part A.
[0046]
Further, in this example, as shown by the dot portions in FIGS.₁Is provided with an anti-slip portion 80 made of elastomer. Here, side B of grip B₂A non-slip portion 80 made of an elastic member having a large coefficient of friction such as an elastomer is continuously disposed from the lower half of the back surface to the lower half of the back surface.₁a is also provided. In addition, side B₂The non-slip part 80 of the side upper half B₂It extends to a. Furthermore, side B of grip B₂The anti-slip part 80 of the front lower half B₁The anti-slip portion 80 is continuously disposed so as to go around the grip portion B. As a result, regardless of the size of the hand or the slight misalignment at the time of gripping, the middle finger, the ring finger, or the little finger can be used regardless of the size of the hand or the slight gripping when grasping. Since the hills, bases, middle and last knives, and the small hills and thumb hills are in contact with the non-slip portion 80, the grip performance against the contact pressure from the side and back direction (grip grip) Performance). Furthermore, front upper half B of grip B₁Since the elastomer non-slip portion 80 is also provided in a, the thumb is placed at that position in a state where the grip portion B is gripped with a finger, giving a very stable and non-slip grip feeling. It becomes possible.
[0047]
【The invention's effect】
  As described above, according to the first aspect of the present invention, in the electric razor in which the head portion including the motor and the blade is supported so as to be movable with respect to the grip portion, the grip portion is provided with the inner surface of the head portion. Forming a box-like space positioned on the lower side, and providing front and rear walls extending upward from the box-like space, and sandwiching and holding the head portion in the front-rear direction by the front and rear walls.A biasing element is provided between the head portion and the upper surface side of the box-shaped space of the grip portion. The biasing element includes a head support member that is rotatably coupled to the head portion, and a head support member that is connected to the grip portion. And a spring block for holding the head support member upwardly by a guide groove formed inside the front and rear walls and spring-biasing the head support member upward. This makes it possible to rotate and move the head part up and down.Therefore, the head part can be reliably supported even against the pressing of the head part in the front-rear direction and can be shaved with the front and rear walls of the grip part sandwiched between the fingers, so that the fingers obstruct the movement of the head part. Therefore, since the movement of the head portion can be increased so as to follow the skin no matter how the shaving is performed, the skin following performance is greatly improved. Furthermore, since the box-shaped space of the grip portion and the head portion are configured independently, it is possible to provide an electric razor that can reliably prevent dust and waterproof by making the box-shaped space a closed space.In addition, since a biasing element is provided between the head part and the upper surface side of the box-shaped space of the grip part, the biasing element does not affect the thickness of the grip part, so the slim grip part is very easy to hold. And the float operation of the head portion is stabilized. Further, the head support member that is rotatably coupled to the head portion is held by a guide groove formed inside the front and rear walls of the grip portion so as to be movable up and down, and the head support member is spring-biased upward. Rotation and vertical movement of the head portion are performed smoothly.
[0050]
  AlsoClaim 2The described inventionClaim 1In addition to the effects described above, a plurality of the head support members are provided in the left and right direction of the head portion. Therefore, a head support member different from the head support member on the skin contact side serves as a rotation axis, and the head portion is moved to the left and right. The force to incline increases, and the skin followability improves.
[0051]
  AlsoClaim 3The described inventionClaim 1In addition to the effects described above, since the elastic member is arranged on the upper end side of the guide groove for guiding the head support member, when the head support member moves along the guide groove, the floated head support member returns. Can be mitigated by the elastic member, and the impact and sound on the hand can be reduced.
[0052]
  AlsoClaim 4According to the invention described above, in addition to the effect described in claim 1, the grip portion includes a box-shaped space and front and rear walls extending upwardly by two front and rear housings. The housing can hold the head part and the box-shaped space of the grip part at the same time, making it easy to assemble, and the front and rear walls can be the support walls of the head part, increasing the head holding rigidity, stabilizing the shaving performance, and parts The score can be reduced.
[0053]
  AlsoClaim 5In the invention described above, in addition to the effect of the first aspect, since a protruding portion protruding below the both sides of the bottom surface is provided near the center of the bottom surface of the head portion, an axis for supporting the head portion is provided on the protruding portion. By forming and raising the lower surface positions on both outer sides of the protruding portion upward, the right and left inclination of the head portion can be further increased, and the followability to the skin can also be improved.
[0054]
  AlsoClaim 6The described inventionClaim 5In addition to the effects described above, since the protruding portion of the head portion is covered with the front and rear walls of the grip portion from the front-rear direction, the movement of the head portion can be easily confirmed during shaving, and wrinkles are less likely to accumulate.
[0055]
  AlsoClaim 7The invention described in claim 1 or 24 or 6In addition to the effects described above, the width dimension in the left-right direction of the front and rear walls is made shorter than the width dimension in the left-right direction of the grip part. The possibility of entering is greatly reduced, and gripping properties can be ensured without a finger hitting the head portion and hindering movement of the head portion.
[0056]
  AlsoClaim 8The invention described in claim 1 or 24 or 6 or 7In addition to the effects described above, since a mechanism for holding the head portion in the front-rear direction is provided on one of the front and rear walls, the head portion is always held by one wall even if the pitch between the front and rear walls varies. It is possible to prevent rattling.
[0057]
  AlsoClaim 9The described inventionClaim 8In addition to the effects described above, a protrusion that extends in sliding contact with either of the front and rear walls to prevent the head portion from tilting in the front-rear direction is extended from the lower back of the head portion. Inclination can be prevented, and therefore it is possible to prevent the head portion from tilting back and forth and becoming difficult to shave even if a force in the front-rear direction is applied to the head portion during shaving.
[0058]
  AlsoClaim 10In addition to the effect of the first aspect, the described invention has a waterproof structure between the head portion and the box-shaped space of the grip portion, and the head portion and the grip portion are coupled by an elastic tube. Since the electric wiring for supplying power from the grip portion to the head portion is passed through, the power from the grip portion is supplied to the head portion in a waterproof state, and waterproofing is possible in a state where large relative movement is possible. , Cleaning performance is improved.
[0059]
  AlsoClaim 11The invention described in claims 1 to10In addition to the effect described in any one of the above, since the non-slip portion made of elastomer is disposed at least on the front surface of the grip portion, the thumb is disposed exactly at the position in the state where the grip portion is gripped by the finger, and grip characteristics Improves and makes it easier to shave. Therefore, it is possible to provide a very stable grip feeling that is difficult to slip.
[Brief description of the drawings]
FIG. 1 is an overall perspective view showing an example of an embodiment of the present invention.
FIG. 2 is a front view of the above.
FIG. 3 is an exploded perspective view of the whole of the above.
FIG. 4 is an exploded perspective view of the outer cutter block.
FIG. 5 is an exploded perspective view of the head case block.
FIG. 6 is a rear view showing a state in which the rear housing is removed.
FIG. 7 is an exploded perspective view of the whole of the above.
[Explanation of symbols]
1 Electric razor
5 Motor
12a Protrusion
20 Elastic tube
21 Front housing
21a Front wall
24 Rear housing
24a rear wall
43 Head support member
46, 47 Guide groove
80 Non-slip part
90 Protrusion
100 Elastic member
110 Box-shaped space
A Head
B Grip part
E Forward / backward direction
F Left and right direction
L1, L2 width dimensions

Claims (11)

In an electric razor in which a head portion provided with a motor and a blade is supported movably with respect to the grip portion, a box-like space located below the bottom surface of the head portion is formed inside the grip portion, and the A front and rear wall extending upward from the box-shaped space is provided, and the head portion is sandwiched and held by the front and rear walls from the front-rear direction , and a biasing element is provided between the head portion and the upper surface side of the box-shaped space of the grip portion. The biasing element is provided with a head support member that is rotatably coupled to the head portion, and the head support member is supported by a guide groove formed inside the front and rear walls of the grip portion so as to be vertically movable and the head support member. And a spring block that biases the spring upward, and the head support member is held in a guide groove so as to be movable up and down, whereby the head portion can be rotated and moved up and down. Electric bite Rino movable head retaining structure. 2. The movable head holding structure for an electric shaver according to claim 1 , wherein a plurality of said head support members are provided in the left-right direction of the head portion . 2. The movable head holding structure for an electric shaver according to claim 1, wherein an elastic member is disposed on an upper end side of a guide groove for guiding the head support member . 2. A movable head holding structure for an electric razor according to claim 1, wherein the grip portion includes a box-shaped space and front and rear walls extending upwardly by two front and rear housings . 2. A movable head holding structure for an electric razor according to claim 1, wherein a projecting portion projecting downward from both sides of the bottom surface is provided near the center of the bottom surface of the head portion . 6. The movable head holding structure for an electric razor according to claim 5, wherein the protruding portion of the head portion is covered with the front and rear walls of the grip portion from the front-rear direction . 7. A movable head holding structure for an electric shaver according to claim 1, wherein the width dimension in the left-right direction of the front and rear walls is shorter than the width dimension in the left-right direction of the grip portion . 8. A movable head holding structure for an electric shaver according to claim 1, wherein a mechanism for holding the head portion in the front-rear direction is provided on one of the front and rear walls . 9. A movable head for an electric razor according to claim 8, wherein a projecting portion for preventing the head portion from tilting in the front-rear direction is extended from a lower back surface of the head portion so as to be in sliding contact with either one of the front and rear walls. Retaining structure. A waterproof structure is provided between the head portion and the box-shaped space of the grip portion, and the head portion and the grip portion are coupled by an elastic tube, and electricity for supplying electric power from the grip portion to the head portion in the elastic tube. 2. The movable head holding structure for an electric razor according to claim 1, wherein the wiring is passed . 11. A movable head holding structure for an electric shaver according to any one of claims 1 to 10 , wherein an anti-slip portion made of elastomer is disposed at least in front of the grip portion .

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