Source: https://patents.google.com/patent/WO1991000700A1/en
Timestamp: 2018-05-27 22:22:08
Document Index: 149569231

Matched Legal Cases: ['art 24', 'arts 27', 'arts 27', 'art 24', 'arts 33', 'arts 27', 'art 27']

WO1991000700A1 - Hair-plucking device - Google Patents
Hair-plucking device
WO1991000700A1
WO1991000700A1 PCT/DE1990/000483 DE9000483W WO9100700A1 WO 1991000700 A1 WO1991000700 A1 WO 1991000700A1 DE 9000483 W DE9000483 W DE 9000483W WO 9100700 A1 WO9100700 A1 WO 9100700A1
PCT/DE1990/000483
Hans-Eberhard Heintke
Gebhard Braun
The invention described has a motor (2) housed in a casing (1), plus a drive device (9, 11, 13) and a plucking head (5). In order to avoid pinching the skin, and for work on small areas of skin and precise contours, the device has a work surface consisting of the end of a hollow cylinder (7) (=the plucking head (5)). Inside the hollow cylinder (7) is a gripping device with gripper arms (16) which are acted on by a rotating cam (19).
Device for plucking hairs
The invention relates to a device for plucking hairs with a housing, preferably designed as a handle, and accommodated in the housing motor gene with at least one Klemmvorrichtun¬ Zupfköpfes is in driving connection.
In previously known devices of this type (FR-AI 25 56939) is the Zupfköpf - viewed geometrically - is designed as a cylindrical roller whose working surface is formed by a narrow strip of the roll mantle, which is parallel to the roll axis. This has the disadvantage on the one hand, that the skin removed during Zupfvor¬ along passageway at the roll jacket and even jammed under certain circumstances, can be pulled vertically to the skin surface, which is very painful; on the other hand has the Nach¬ part of a largely direction depending on the handling and management of the device. The latter must be done as possible angles to the axis Walzen¬ to be effective. Finally, the bekann¬ th devices are ill-suited for the handling of smaller parts Haut¬ and precise contours, such as hairline, upper lip area (nose), and the like.
These drawbacks are avoided by the invention in a surprisingly simple manner. This is done in that the Zupfköpf as is mounted in the housing and formed from this partially umschlosse¬ ner cylinder, the-set-up on the skin work surface A is defined by its end surface. The Erfin dung proper measure has the advantage that the skin can be maintained during the ZupfVorgangs in a way "below", which be¬ pointing less pain in plucking caused, and that a working movement is provided in small, traveling over the skin surface circles, the Haareinf bundling facilitated and the EinfädelVorgänge increased.■ In the closer advantageous development of the invention is seen vor¬ that the cylinder is designed as a hollow cylinder, inside which the clamping device is provided that a cam is provided in the geometrical axis B of the hollow cylinder, which controls the clamping device, and that at least is rotatably mounted in the housing and driven by the motor Ge - one of the two 'components - a hollow cylinder and the cam. The advantage of this is the possibility of externally closed, smooth design of Zupfköpfes that dling allows trouble-free Hand¬.
An advantageous development of the invention is defined by the male Merk¬ of claim 3 in which allow a simple and to be realized with few resources, inexpensive construction of Zupfköpfes.
An alternative, advantageous design characterize the features of claim 4. The construction cost is indeed ge slightly higher, but has significant advantages. The location of the Zupfungen on the skin is constantly shifting; of the cams may be formed in the region of the closing path determining circular arc smaller aus¬, whereby the size of the entire Zupf¬ head can be reduced.
In an advantageous further design of the invention according to claim 14 Patent¬ a symmetrically formed with two cam gegen¬ opposite circular portions exist, which determine the closed position of the jaws and accordingly cooperate with two opposite clamping jaws.
This cam design, the number of jaws min¬ least doubled - for example, four jaws - are reducing the number of Zupfungen grown in the same way. By reducing the size of the plucking heads can advantageously be several, eg two or three, are mounted on the housing, whereby the Zupfleistung of Zupfgerätes is further increased (claims 17 and 18).
A possible in principle, a further variant is represented by the Merk¬ the claims in male 19 and 20; It has the advantage that the movement of the jaws may be used twice, that is, they go on the one hand in the closed position, so they open the other hand, a gap for the hair-entry. The number of Zupfungen can thus be substantially increased.
According to a further advantageous embodiment of the invention, the hollow cylinder of the Zupfköpfes and the cam shaft with its axis or in the direction of the geometric axis of the cylinder are ver¬ slidably guided, and at least the hollow cylinder is provided _r.it a return spring. These measures give a certain elasticity the Zupfköpf so that it avoid Excessive pressure against the skin into the housing interior and can yield.
The remaining claims characterize features which - individually, partially or applied together - serve the advantageous or expedient further development of the device according to the invention.
In the drawing embodiments of the invention are shown in schematic teil¬. Show it:
Fig. 1 shows a longitudinal section through a Zupfgerät,
Fig. 2 is a longitudinal section through a Zupfköpf,
Fig. 3 is a plan view of the plucking head of FIG 2,. - -
Fig. 4 is a plan view of a first variant of the Zupfköpfes according to Fig. 2,
Fig. 5 is a plan view of a second variant of the Zupfköpfes according to Fig. 2,
Fig. 6 is a plan view of a third variant of the Zupfköpfes according to Fig. 2,
Fig. 7 is a longitudinal section through a variant of the Zupfgerätes according to Fig. 1,
Fig. 8 is a perspective view of a Zupfgerätes with two schematically illustrated Zupfköpfen,
Fig. 9 is a perspective view of a Zupfgerätes with three schematically represented Zupfköpfen,
Fig. 10 shows a variant of a detail of the Zupfköpfes of FIG. 1 in a perspective-diagrammatic, fragmentary view looking at the inside thereof,
Fig. 11 is a plan view of FIG. 10 with a constructional supplement
Fig. 12 shows a variant of Zupfgeräte shown in FIG. 1 and 7 in longitudinal section and
Fig. 13 shows a further constructional variant of the Zupfgerätes of FIG. 1.
called the device shown in FIG. 1 for plucking hairs, in short "Zupfgerät", consists essentially of a housing 1, in which a motor 2 is housed, of an powered by primary or secondary cells or directly from the mains electric motor or a spring drive motor can be. The housing 1 is designed so that it can serve as a handle for guiding the Zupfgerätes. In the housing 1, a Schott 3 is further provided, the engine compartment 4 from a Zupfköpf 5 teil¬ as enclosing the gear chamber 6 separates. In the gear chamber 6 is a hollow cylinder 7, the portion of the Zupfköpfes 5 is rotatably supported by bearings Wälz¬. 8 Instead of the rolling bearing 8, a slide bearing of a known type may be provided. protrudes on the shaft 9 of the engine 2, the gear space through an opening 10 on the bulkhead 3 in the Ge 6, a pinion 11 is fixed, which meshes with a fixed to the facing end 12 of the hollow cylinder 7 gear. 13 The rotatably mounted hollow cylinder 7 is so¬ with via the gear train 11, 13 to the motor 2 in drive input connection. The gear mechanism can also be replaced by a so-called "belt drive" such as belt or cord drive, as it is known. The gear is put auszu¬ so that the rotational speed of the hollow cylinder 7 is lower than the engine speed.
are on the inner surface 14 of the hollow cylinder 7 is still within the gear chamber 6 on opposite sides of two Blatt¬ feathers fixed 15 τιmbacken at their free ends Kl "bear 16, which can be applied to the associated inner surface 14 of the hollow cylinder 7, as shown in more detail below is executed.
The bulkhead 3 is a parallel to the motor shaft 9 extending shaft 17 is fixed, which extended through the hollow cylinder 7 to the outer edge 18 on which a cam 19 is attached, the auf¬ due to its design is suitable, the jaws 16 through the leaf springs to be brought into elastic contact with the inner surface 14 of the cylinder Hohl¬. 7 By the edge 18 of the hollow cylinder 7, which is placed on the skin during operation of the Zupfgerätes and which forms the end face of the hollow cylinder 7, the work area A of the plucking head 5 is defined. - 6 -
The basic functioning of the group consisting of parts of the hollow cylinder 7 and the clamping jaws 16 clamp is apparent from Figures 2 and 3 -. Signs like parts are the same as in Figure 1 denotes Bezugs¬..
The cam 20, which is designed asymmetrically deviating from the representation in Fig. 1, is mounted on the axle 17 by means of a clamping screw 21 adjustable. The leaf springs 15 are designed so that they urge the attached at their free ends the clamping jaws 22 in an open position, so that a gap 23 is created between them and the associated inner surface 14 of the Hohlzylin¬ DERS. 7 The cam 20 in turn is dimensioned such that it is able to press in the closed position 22 through a part 24 of its U fangs, which is circular in shape, the clamping jaws, in which - as said - the jaws 22 on the inner surface 14 of Hohl¬ cylinder 7 issue. By moving the cam 20 on the axis 17, the clamping force of the jaws 22 can set the wer¬. In order to avoid a fluttering of the sheet springs 15 may be attached to the fixed ends damping strips 25th The jaws 22 are relative to the edge 18 of the hollow cylinder 7 ge ringfügig - for example by the dimension a = 0.1-0.4 mm - offset inwardly, to prevent the pinching of the skin. On the free end of the shaft 17 is a head set with auf¬ outwardly convex surface 26, which prevents excessive dishing of the skin into the interior of the hollow cylinder. 7
The jacket of the hollow cylinder 7 is teil¬ at its outer edge as recessed, such that the zusam¬ with the jaws 22 menwirkenden parts 27 of the jacket extend castellated against the Arbeits¬ area A, as can be seen in Fig. 7 and 8. At these enclosure members 27 may be attached openings 28, are ejected through the plucked hair; in this case it is expedient to provide the clamping jaws 22 with recesses 29 which release the openings 28th In order to facilitate the threading of the auzuzupfen- the hair, the vertical edges 30 of the parts 27 Mantel¬ chamfered.
. The operation of Ge shown in Figures 1, 2 and 3 rätes is as follows:
The motor 2 is switched by an unillustrated switch ge suitably of known construction, and the motor shaft 9 sets via the transmission 11, 13 the hollow cylinder 7 of the epilation head 5 in turn. This will now be placed on the selected area of ​​skin with its end face defining in FIG. 1 and 2, the Arbeitsfl area A and in a circular motion guided over them. During the rotary movement of the hollow cylinder 7 approximately in the direction of the arrow b in Fig. 3, the fixed thereto jaws 16 or 22 urged by the cam 19 or 20 in the closing position as long as they kreisbogen¬ with the protruding-shaped portion 24 with the radius R of the cam track are in contact; during one revolution ds remaining portion 16 or 22 to pivot the jaws under the effect of its leaf springs 15 held by r and enter the above-mentioned gap 23 free. Due to the circular movement of the plucking head 5 over the skin surface drin¬ hair gene into the gap 23 which are clamped by the jaws 16 or 22 when going in Schiießstellung, and during the further rotation of the hollow cylinder 7 plucked out from the skin. This cycle is repeated with two jaws on plucking head at each of its turns twice.
By changing the arc length of the circular part 24 of the cam track and / or the transmission ratio, the closing duration of the jaws 1b, 22 and the length of the Zupfweges can vary. Asymmetric cams, as described above, have, in this application, however, the disadvantage that they take up at each rotation of the hollow cylinder 7, the axis 17 in alternating directions to bending. It is more advantageous since the dar¬ asked in Fig. 4 symmetrical configuration of the cam 19, as shown also in FIG. 1. At opposite arrangement of the clamping jaws 16 of the cam is ver¬ see 19 with two opposite, circular portions 31 with radii R of the cam track so that no einsei¬ term radial pressure on the shaft 17 is exerted in the closed position of the cam 19th Moreover er¬ give already here four Schiießsteilungen the jaws 16 with each rotation of the hollow cylinder 7. Fig. 4 shows the Klemm¬ bake 16 in its Schiießstellung.
The number of Schiießstellungen can be doubled, if two further clamping jaws 32 the same configuration and arrangement as the jaws 16 are symmetrically applied to these as illustrated in Fig. 5 in the free space of the hollow cylinder 7, as Fig. 5 shows. The jaws 16 are located in this Dar¬ position in the closed position and the jaws 32 in the open position, so that between them and the castellated hoch¬ protruding parts 33 of the cylinder jacket, which are the same manner as the corresponding parts 27 are formed, a gap 34 ent ¬ stands. In such an arrangement, eight Schiieß¬ give positions for each revolution of the hollow cylinder. 7
Fig. 6 shows the same view of a plucking head as shown in FIG. 4, but in which a Aufrichtkamm is additionally mounted 35, namely with respect to the direction of rotation U of the Zupfköpfes before the jaws 16, on which also a bevel can be attached 36 the facilitate threading of the erect by the comb 35 hairs in the gap 34 (FIG. 5). . Einge¬ the recorded side view in Figure 6 is merely schematic and shows that the Aufrichtkamm 35 to the working surface A extends; with point 27 of the cooperating with the jaws 16, crenellated portion of the shell of the hollow cylinder 7 is indicated.
Fig. 7 shows a variant compared to the example shown in Fig. 1 with respect to a Zupfgerät detail. With otherwise the same structure of the apparatus and its individual elements a shaft instead of a un¬ movable axis is storage means 37 stored Walz¬ 38 rotatably in the housing 2 as a cam carrier, which is provided to the engine 2 zuge¬ Applied end 39 with a gear 40, the meshes on the motor shaft 9 with a second pinion 41; the first pinion of the motor shaft 9 is 42, as shown already in Fig. 1, with the gear 43 of the hollow cylinder 7 in drive connection. Both toothed wheel gears 40, 41 and 42, 43 are dimensioned and matched to each other that the shaft 37 rotates with its cam 19 at a lower speed, but with the same rotational direction U (Fig. 4) as the hollow cylinder 7 with the jaws 16 of the plucking head 5. here, the gear unit - as in Figure 1 below -. are replaced by belt drives.
The advantage of such a rotatable shaft as a cam carrier, in that the cams in the area of ​​Schiießstellungsweges be made smaller at the same radius R - for example, can be halved radians in the portion 24 of the cam 19 or 20 when the shaft 37 with its Noc s 19 or 20 rotates at half the speed of the hollow cylinder. 7 The number of Zupfungen per revolution of Zupfköpfes 5 is increased and the place of Zupfungen shifted to the skin.
The possible with this measure downsizing of the entire Zupf¬ head allows two plucking heads 5 provided with the same or only slightly larger, adapted design side by side, as Fig. 8 shows the direction of rotation U is in opposite directions. This allows harnessed to the epilation skin and Zupf¬ heads 5 are guided more easily over the skin. The plucking heads are shown simplified only as a hollow cylinder 7 in Figure 2 without the inner aggregates. but clearly the crenelated part 27 of the jacket of the hollow cylinder 7 can be seen.
The same applies for the example shown in Fig. 9 Zupfgerät with three Zupfköpfen 5, which are arranged in plan view at the corners of an equilateral triangle on the housing 1, as is known per se, but rotate in the same direction U.
The head in Fig. 1 and the following principle of the plucking illustrated 5 may also be reversed, as shown in FIG. 10 can be seen. Here, the end face of the hollow cylinder, not shown, rotatable is covered by a disk 44 which rests with its transfer the work area A defined outer surface 45 during the ZupfVor¬ the skin. On the facing zuge¬ the cylinder interior side of the disc 44 the clamping jaws are guided 46 displaceable by means of webs 47, to which springs 48 engage, the fins 47 with their jaws 46 to the center of the disc 44 on the one hand to rest on a stationary cam 49 and on the other hand drag for abutment of the clamping jaws to the outer edge 50 of the disc 44, as indicated by the arrows c. During each revolution of the disc 44, each jaw 46 once to form a gap 51 from the associated outer edge 50 of the disc 44 is lifted (left image side) and accommodated by the shoulder 52 in the cam 49 abruptly back into the Schiießstellung (right side).
Fig. 11 shows an extension of this construction. To the disk 44 is laid with it a mechanically linked ring 53 of sol¬ chem radius R, that a distance 54 remains between the edge 50 of the disc 44 and the ring 53, the 46 the desired taking into account the thickness d of clamping jaws width of the Haarein- trittsspaites 55 corresponds. This measure each Klemm¬ has bake 46 in any position at the same time a closed position and an open position. For example 11, the clamping jaw is in Fig. Bottom left urged 46 by the cam 49 against the force acting in the direction of arrow c spring 48 outwardly against the ring 53, that is brought into the closed position between two components, while between this clamping jaw 46 and the edge 50 the disc 44 opens a gap 55 to enter the hair. . The two ande ren, above and to the right in Fig layers of the illustrated Klemm¬ 11 bake the conditions are reversed; here the closed position to the edge 50 of the disc 44 and the gap 55 against the ring 53 is provide ge. The variants indicated in the above figures of the drawing in terms of the design of the cam 49 and the number and grouping An¬ '~ r jaws 46 can verwerte earthen also in this construction.
. The Zupfgerät 5 according to FIG 12 shows a variant of the apparatus according to Fig. 1; it contains elements of Zupfgerätes shown in Fig. 7 5. In reversing the conditions for FIG. 1, here, the hollow cylinder 7 is rigidly fixed in the housing 2 and is rotatably mounted instead of a rigid cam carrier a shaft 37 in the housing 1, mounted on the cam 19 is. On the shaft 9 of the engine 2 is seated analogous to the embodiment in FIG. 7, a pinion 41, which meshes with a gear 37 mounted on the shaft 40 and thus the shaft 37 is able to put in rotation with the nod 19th The other conditions and the operation of the Zupfköpfes 5 are otherwise the same as the exemplary embodiment play in Fig. 1 and 7 indicated, except for the fact that the plucking must be carried out by the movement of Zupfgerätes through the skin. The other possible variations, ins¬ particular with regard to the design of the cam and the number and arrangement of the jaws, can be largely recycled. In the illustrated in Fig. 13 embodiment, which corresponds to to the following supplements in FIG. 1, the Hohl¬ cylinder 7 is guided displaceably in the housing interior in the housing 1 in the direction of the geometrical axis B or the cam 19 bearing axis 17, and against the action of a supported to the bulkhead 3 of the housing 1 the return spring 56. the axis 17 is also displaced in the same direction and for this purpose has a transverse pin 57 which be¬ voting in their displacement slot 58 in the bulkhead 3 of the housing 1 is performed. The entire Zupfköpf 5 is in this way able to yield resiliently at too high a contact pressure of the Zupfgerätes to the skin.
1. Device for plucking hairs with a housing preferred wise designed as a handle, and a housing mounted in unterge¬ motor communicating with at least one clamping devices Zupfköpfes in drive connection, characterized gekennzeich¬ net, that the pot OEPF (5) as is formed in the housing (1) mounted and this partially enclosed cylinder (7), the-set-up on the skin Arbeitsfl (A) is surface defined by its end surface.
2. Apparatus according to claim 1, characterized in that the Zylin¬ of a hollow cylinder (7) is formed, inside which the clamping device is provided that in the geometrical axis (B) of the hollow cylinder (7), a cam (19, 22 ) is seen vorge which controls the clamping device, and that mindes¬ least one of the two components - a hollow cylinder (7) and cam (19, 22), - rotatably mounted in the housing (1) and supported by the motor (2) is driven.
3. Apparatus according to claim 1, characterized in that the Hohl¬ cylinder (7) via a transmission (11, 13) with the motor (2) is in drive connection, that in the interior of the hollow cylinder (7) the clamping jaws (16, 22) are attached, the elastically against its inner surface (14) in the region of the working surface (a) an¬ are can be laid, that in the housing (1) having an axis (17) is fixed, the body-centered (along the geometrical axis (B) through the hollow cylinder 7) to (to the work area a) extends, and in that on the r HSE (17) at least one cam! 9, 20) is mounted, the inh (on the jaws 16, 22). .t.
4. Apparatus according to claim l, characterized in that the Hohl¬ cylinder (7) via a transmission (11, 13) with the motor (22) is in drive connection, that in the interior of the hollow cylinder (7) the clamping jaws (16) are fixed resiliently against its inner surface (14) in the region of the working surface (a) an¬ are can be laid, that in the housing (1) comprises a shaft (37) is rotatably ge, the space-centered along the geometrical axis (B) through the hollow cylinder (7) to its working surface (a) projects, that on the shaft (37) at least one cam (19, 22) is mounted, of the clamping jaws (16, 22) ein¬ acts, and in that the shaft (37) at its motor (2) zuge¬ facing end with a gear (40) is provided, which attached with a second, on the motor shaft (9) pinion (41) meshes, wherein the gear ratios of both Getrie¬ be (11, 13 and 40, 41) are selected such that the shaft (37) rotates in the same direction, but at a lower speed than the hollow cylinder ( 7), but (in same direction of rotation FIG. F).
5. Device according to claims 1 to 4, characterized in that the clamping jaws (16, 22) by means of leaf springs (15) on the bearing-side end on the inner surface (14) of the hollow cylinder (7) are fixed, and the cams (19, 20) Blatt¬ to the springs (15) act.
6. Apparatus according to claim 5, characterized in that the Blatt¬ springs (15) with damping strips (25) are provided.
7. Device according to claims 1 to 4, characterized in that the cam (20) on the axis (17) is adjustable.
8. Device according to claims 1 to 4, characterized in that the axis (17) is provided at its free end with a head (26) having a slightly convex surface, the Arbeits¬ area (A) affected (Fig. 2).
9. Device according to claims 1 to 4, characterized in that with the clamping jaws (16, 22) projecting co-operating parts (27) of the jacket of the hollow cylinder (7) castellated against the working surface ausgebil¬ det (A) (FIG. 3 , 7 and 8).
10. An apparatus according to claims 1 to 4, characterized in that in the enclosure members (27) openings (28) are mounted.
11. An apparatus according to claim 10, characterized in that the openings (28) are provided gegenüberl egenden portions of the clamping jaws (22) with recesses (Fig. 2).
12. An apparatus according to claims 1 to 4, characterized in that the clamping jaws (16, 22) relative to the outer, in the work area (A) lying edge (18) of the hollow cylinder (7) by a small amount (a) inwardly are offset (Fig. 2).
13. An apparatus according to claims 1 to 4 and 9, characterized in that the vertical edges (30) of the shell parts (27) and (U) the jaws in the direction of rotation (16, 22) are bevelled gekennzeich¬ net.
14. An apparatus according to claims 1 to 4, characterized by a symmetrical cam (19) with two opposite kreis¬ shaped portions (31) which cooperate with two opposing clamping jaws (16).
15. An apparatus according to claims 1 to 4 and 13, characterized by four evenly on the inner surface (14) of the Hohlzy¬ Linders (7) distributed clamping jaws (16, 32) (Fig. 5).
16. An apparatus according to claims 1 to 4, characterized in that in direction of rotation (U) in front of each jaw (16, 32) comprises a comb (35) is fixed to the hollow cylinder (7) whose ange¬ buckled prongs approximately in the region of the working surface (A) are (Fig. 6). - 1 o -
17 device are set according to one or more of the preceding claims, characterized in that on the housing (1) two Zupf¬ heads (5) are mounted, whose directions of rotation (U) entgegen¬ (Fig. 8).
are 18, according to one or more of the preceding claims, characterized in that on the housing (1) three Zupf¬ heads (5) are mounted, whose directions of rotation (U) gleichge¬ directed, in such an arrangement that they at the corners an equilateral triangle are located (Fig. 9).
19. An apparatus according to claim 1, characterized in that the face side of the hollow cylinder (7) is covered of the epilation head (5) with a disc (44) whose outer surface (45) with the work surface (A) is identical, and that on the inner surface of the discs (44) clamping jaws (46) are guided radially, which rest under the action of springs (48) on the outer edge (50) of the disc (44) and provided on the clamping jaws webs (47) under the action of same springs (48) radially (arrows c) on a stationary or rotary cam (49) pulled s nd.
20. Apparatus according to claim 19, characterized by a disc (44) mechanically connected to ring (53) whose Durch¬ diameter (R 2) relative to the diameter (R) of the disc (44) is so much greater than that in the a gap (55) remains mutual abutment of the clamping jaw (46) at one of the two components (44 and 53) for the entry of the hair.
21. Device according to one or more of the preceding claims, characterized in that both of the hollow cylinder (7) and the cam (19) with its axis (17) or shaft (37) are guided in the direction of the geometrical axis (B) and at least the hollow cylinder (7) is provided with a Rückstell¬ spring (56).
PCT/DE1990/000483 1989-07-12 1990-06-27 Hair-plucking device WO1991000700A1 (en)
DEP3922949.1 1989-07-12
DE19893922949 DE3922949C1 (en) 1989-07-12 1989-07-12
EP19900909332 EP0482016B1 (en) 1989-07-12 1990-06-27 Hair-plucking device
DE1990508152 DE59008152D1 (en) 1989-07-12 1990-06-27 Device for plucking hairs.
WO1991000700A1 true true WO1991000700A1 (en) 1991-01-24
ID=6384839
PCT/DE1990/000483 WO1991000700A1 (en) 1989-07-12 1990-06-27 Hair-plucking device
EP (1) EP0482016B1 (en)
JP (1) JP2837269B2 (en)
DE (2) DE3922949C1 (en)
DK (1) DK0482016T3 (en)
ES (1) ES2077069T3 (en)
WO (1) WO1991000700A1 (en)
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DE4023251C2 (en) * 1990-07-21 1993-05-27 Braun Ag, 6000 Frankfurt, De
DE4120014C1 (en) * 1991-06-18 1992-06-17 Braun Ag, 6000 Frankfurt, De
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ES2077069T3 (en) 1995-11-16 grant
DE59008152D1 (en) 1995-02-09 grant
EP0482016A1 (en) 1992-04-29 application
JP2837269B2 (en) 1998-12-14 grant
DE3922949C1 (en) 1990-09-27 grant
DK0482016T3 (en) 1995-06-12 grant
EP0482016B1 (en) 1994-12-28 grant
JPH04506307A (en) 1992-11-05 application
WO2008010139A1 (en) 2008-01-24 Shaver having a space for collecting cut-off hairs
US6553668B1 (en) 2003-04-29 Rotary electric shaver
US5105735A (en) 1992-04-21 Perfected machine for peeling oranges and similar fruits
Ref document number: 1990909332
1994-12-28 WWG Wipo information: grant in national office