CH680049A5 - - Google Patents

Description

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description

The present invention relates to a doll skeleton intended for use in the manufacture of textile dolls. Many devices are known which at least act as such skeletons and are therefore intended to give a doll the necessary stability. These devices can be designed as inner or outer skeletons and basically aim on the one hand to ensure that a doll does not collapse in itself and can sit or stand, for example. In particular, such devices also aim to enable the dolls to occupy as many natural body partitions as possible and then hold them. There are also devices that aim to enable the doll to move. With such dolls one speaks more of play dolls or even of puppets. The devices, which form the musculoskeletal system of such play dolls, have a large number of joints, the individual members being movable manually from inside the doll by reaching into the play doll body or from outside using rods, wires and cords. In contrast to skeletons for such dolls, the present invention relates to a skeleton for textile dolls. Such textile dolls have a body whose outer skin consists of textile material. For the time being, this will be cut using cutting patterns. Then the two cut textile parts are sewn together for each limb and the fuselage and then turned inside out. Because one side is not sewn up during sewing, the inside out creates a sack-shaped structure that is subsequently filled with darning material and ultimately becomes a trunk, arm or leg. A special stuffing cotton and / or a plastic granulate is best suited as stuffing material. Once the trunk, arms and legs are stuffed in this way, they can be sewn together. The head of a textile doll usually consists of a plastic mask, which was manufactured using the PVC deep-drawing process and then placed on a suitable styrofoam head. The same textile material that is used to make the body is glued to the mask. This textile material is then sewn to the back of the styrofoam head. This styrofoam head, the front half of which is enclosed by the PVC mask, must then be attached to the fuselage. Traditionally, the head is merely sewn to the trunk by sewing the fabric that surrounds it to that of the shoulder area of the trunk. A textile doll made in this way assumes a body position given by the shape and sewing. The limbs are all stretched more or less straight away from the torso, and the head is in a central position from which it can probably be rotated and swiveled a little, but always returns to it. Such a doll can therefore be brought into different body positions, but it does not keep it on its own. Therefore, if it is to remain in a sitting or standing position, for example, it must be held by additional means. Now textile dolls are mainly used as decorative objects. Here it is desirable that the doll can adopt any natural body position and hold it by itself. Above all, it is also desirable that the head can assume all natural positions so that the dolls look, for example, up, down or to the side. Some of the textile dolls are also used by children to play. Children also want to put their doll in different positions, change them often and simulate the doll's various activities with a variety of body positions. For this purpose, even with a textile doll that is primarily intended for playing, a skeleton is indispensable, which ensures the necessary stability with the doll's freedom of movement being as unrestricted as possible.

One has to differentiate between factory-made, soft-stuffed dolls or play animals on the one hand and as handicrafts or textile dolls sold in individual parts for self-production on the other hand. You want to be able to simulate and maintain different natural body positions with both types of dolls. In the case of the factory-made textile dolls, however, the requirements for their skeleton are weighted differently than those that are made by the buyers themselves. In the case of the factory-made textile dolls and soft toys, the skeleton, in addition to its mobility, must be particularly suitable for factory, in particular mechanical, manufacture and must also be inexpensive. There are a number of known skeletons for such factory dolls. For example, one consists of a single piece of wire that is clamped together to form an endless loop of wire. Several loops are then formed from this wire loop, so that each arm, leg and neck with head contains a wire loop. The individual wire loops are held together by clips inside the arms and legs. This skeleton is then placed in a mold which includes two half-shells, the inside of which corresponds to the mixed outer contour of the doll's body. The inside of the trays is then foamed and the trays are then separated. The body produced in this way serves as a starting point for the completion of the doll. For this purpose, this body is, for example, painted, dressed, provided with a special head or hands and feet made of soft material, which are then attached to the outer ends of the limbs or even attached to the wire loops located therein. This skeleton can be bent many times. It also has no pointed ends that could damage the soft material of the cover. Another textile doll has a skeleton made of two bent pieces of wire, which are cross-connected by means of clips, so that one piece of wire forms the right arm and the left leg and vice versa. The ends of the pieces of wire are

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bent so that they cannot damage or even pierce the soft material. Another known skeleton consists of relatively thick, flexible wires, one of which forms the shoulders and the arms which they stretch out horizontally, and two further wires, soldered to the first wire, which spread downwards away from the shoulder and form the legs. All wires are provided with a mechanical swivel at the end, which carries one hand or one foot. However, if a doll with such a skeleton is to be delicate, it can no longer be stuffed. Due to its one-piece skeleton, it is only possible to stuff the doll with all its limbs in a single operation, which requires a relatively compact body. A doll is also known, the torso, head and limbs of which are deliberately flat, like a jumping jack, meaning that they only reflect the contour of these parts of the body from the front. The limbs can be attached to the fuselage with a snap lock. The snap locks consist of flat socket-like sockets on the fuselage, into which circular joint disks can then be inserted and are secured in the sockets by a snap mechanism. The hinges are then covered by a flat, attachable fuselage cover. Because of the snap locks, these skeleton parts can only be made of plastic, which is not inelastic, however. The doll should even remain flat and only allow swiveling and possibly swapping the limbs. The flatness of this doll then allows it to be used as a template for cutting textile material to produce an extensive wardrobe for this doll. However, it should not be regarded as a textile doll, since it is neither stuffed, nor made of textile material, nor does it have a three-dimensional appearance. In general, there are a large number of other skeletons for dolls with numerous variants of actual mechanical joint connections to ensure the mobility of the limbs and the holding of a certain body position. Such joints essentially include ball joints, hinge joints, sliding joints and swivel joints about the longitudinal axes of the limbs. Such joint types are often present in combinations of one another. The more complicated and complex the joints are, the more expensive it is to manufacture and the more likely it is that a corresponding skeleton is an outer skeleton that simultaneously forms the body surface of the doll. However, textile dolls are to be understood as dolls that are stuffed and whose body surface consists of a textile material. This exterior construction cannot therefore be used to make a textile doll by hand. Textile dolls therefore require an inner skeleton which can only be assembled after the individual limbs and the trunk have been stuffed. Such an inner skeleton is shown, for example, in German Offenlegungsschrift 2 604 563. This skeleton includes a frame which forms the trunk and has five balls formed on the outside for attaching the limbs. The limbs consist of round rods with a hinge joint to bend the elbow or knee. Near the attachment point with which the limbs are attached to the fuselage, they have a swivel joint for rotating the rod about its longitudinal axis, which on the other side is shaped into an articular socket divided by a longitudinal slot. Each limb can then be releasably attached to the trunk by means of this joint socket, by sliding its socket over the corresponding joint ball on the trunk, the joint socket expanding thanks to its longitudinal slots, taking up the joint ball and then closing around it. As a result of the complex joints, expensive tools are required to produce this skeleton and it is practically exclusively possible to manufacture it from plastic. The individual parts of the skeleton cannot be bent inelastic due to the material alone. In addition, the limbs can be torn off the trunk relatively easily.

None of the known doll skeletons therefore enables the production of textile dolls, in which the limbs can be stuffed separately and then put together, and which both ensure maximum mobility of the doll and at the same time hold any set body position. In particular, the known skeletons do not allow continuous twisting over the entire length of the trunk or a limb about its longitudinal axis or a very local twisting or bending at an agreed location. The conventional skeletons also do not allow any natural head position to be set and held.

The present invention therefore sets itself the task of overcoming the above-mentioned disadvantages of conventional skeletons and to create a skeleton for a textile doll that can be assembled once after the darning, allows all natural body positions including all natural head positions to be set and held repeatedly and also very much is inexpensive to manufacture.

This task is solved by a doll skeleton for crafting textile dolls, which is characterized by the fact that it includes a torso with a neck extension, separate arms and legs each made of a flat stamped part made of inelastic, flexible sheet metal, and a head holder made of plastic, the arms and legs using one plug connection with barbs and the head holder can be attached to the fuselage by means of a flat plug connection.

Particularly advantageous embodiments of the invention emerge from the dependent claims.

In the drawings, an example of a doll's skeleton according to the invention is shown in different views and in the following description the nature and function of which are explained in detail.

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It shows:

Fig. 1: a whole doll's skeleton in the state before assembly in a plan view;

2: a plug-in connection of the limbs on the doll's skeleton in a perspective view before plugging together;

Fig. 3: a plug connection of the limbs on the doll's skeleton in a perspective view after plugging together;

4a: the head holder in a lateral cross section;

4b: the head holder in a perspective view before it is assembled;

5: the head holder on the head in a side view before being attached to the cervical process;

6: an assembled doll's skeleton with an indicated stuffed doll's body;

7: Possible body movements on the basis of an adjusted body setting of a doll body with a doll skeleton according to the invention.

1 shows all the components of the doll's skeleton according to the invention, namely the trunk 1, two arms 2 and two legs 3 and the head holder 15. Basically, the trunk 1 with the neck extension 11 and the limbs 2, 3 all consist of relatively thin, inelastic flexible bend. The head holder 15, on the other hand, is made of plastic since it is manufactured as an injection molded part. For the hull 1, for example, a sheet of approximately 0.3 to 1 mm thick is used, while the sheet for the limbs 2, 3 is approximately 0.2 to 0.7 mm thick. With the exception of the head holder 15, all components are flat and can therefore be easily punched out of a corresponding steel sheet. The trunk 1 has means 4 for the arms 2 and legs 3 for creating a plug connection. On the Giiedmassen 2, 3 on the other hand barbs 5 are present, which then snap into place on the means 4 when the plug connection is made and secure the plug connection. The torso 1 is also somewhat wider in the shoulder and hip area, which is conducive to its torsional ability around the longitudinal axis. This difference in width can of course be even more pronounced than shown in FIG. 1, so that the fuselage 1 allows an even greater torsion. The arms 2 have pre-shaped insert hands 6 on their end sides, each of which forms a hand 7 and a forearm 8. These hands 6 are punched out of even thinner sheet metal so that the individual fingers 9 are easily bendable. The sheet thickness for these hands 6 is on the order of about 0.1 to 0.5 mm. Because of the different sheet thickness of the upper arm 10 and insert hand 6, the arms 2 are made of two parts in the example shown. The two parts 6, 10 overlap slightly and are firmly connected to one another by means of two spot welds. The trunk 1 has an extension 11 in the shoulder area, which is intended to act on the one hand as a neck and on the other hand as a support for the head to be put on or the head holder 15. This extension 11 ends in a tip 13, by means of which the extension 11 can be inserted through the head holder 15 and for the most part into a styrofoam head or into a conventionally stuffed doll's head. The legs 3 are only designed as relatively long metal strips and the hip, knee and ankle joints are made by turning them accordingly. The means 4 for establishing the plug connection between the limbs and the trunk advantageously include two tabs 12 punched out of the trunk material. The two tabs 12 are arranged parallel to one another and each form a type of bridge, under which an arm 2 or a leg 3 can be pushed. Because there are two tabs 12 and the limbs 2, 3 are inserted under both tabs 12, the course direction of the limbs 2, 3 is determined. The limbs 2, 3 have a barb 5 at their end to be inserted under the tabs 12, which barb is punched out of the limb material in the form of a tongue 5 pointing in the opposite direction of insertion.

Fig. 2 shows the plug connection for the limbs in an enlarged and perspective view, on the basis of which their function can be better understood. In the drawing, the situation before inserting the limbs 2, 3 is shown. The trunk 1 is shown with a neck extension 11 on one side of the shoulder area. Two tabs 12 are arranged parallel to one another, at a distance from one another and one behind the other. They are simply punched out of the fuselage material and form two bridges, under which the limbs, that is, arm 2 or leg 3 in the same way, can be inserted. In the insertion direction behind the tabs 12, an elevation 14 is punched out of the fuselage material. This serves as a stop for the limbs 2, 3 inserted under the tabs 12. The limbs, be it an arm 2 or a leg 3, have a tongue 5 which points against the plugging direction and is inclined slightly upwards. This tongue 5 serves as a barb 5 to secure the connector.

This securing by the tongue 5 can be seen in Fig. 3, in which a plug connection is shown. The limb 2 was pushed under the tabs 12 as far as the stop 14. In the direction of insertion, the tongue 5 was pivoted through the undersides of the tabs 12 and did not form any resistance to the insertion of the limb 2. When the limb 2 strikes the elevation 14, the tongue 5 has passed the second tab 12 and swings up again because the material has a very slight elasticity. It now acts as a barb 5 and the limb 2 can no longer be withdrawn, since the tip of the tongue is in contact with the second tab 12. The same naturally also applies to the identical plug connection for the legs 3.

To manufacture a textile doll, the textile materials for the individual parts, that is to say for the trunk 1 and the limbs 2, 3 are first cut twice using a pattern, and the two textile material parts are sewn together at the edge, one side not yet being sewn.

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Then the sack-shaped structure produced in this way is turned inside out and the corresponding skeleton part is inserted through the non-sewn side in such a way that the seams run along the edge of the stamped parts. Now you can start with the plug, which is on both sides of the skeleton part. The textile can be turned back a little for better accessibility, especially to be able to stuff the fingers exactly. The limbs 2, 3 are stuffed almost to the end of their skeleton part, which has the tongue 5 forming the barb 5, and the textile material is sewn there in such a way that the skeleton end with the tongue 5 is still slightly out of the limb 2, 3 protrudes. The hull 1 can be sewn on all sides after the darning. The extension 11, which must serve as a neck and holder for the head, protrudes without covering from the now stuffed shoulder area of the trunk 1. On the steep parts of the plug-in connections, the seams can now have a length that is approximately the width of the skeletal parts of the arms and legs corresponds to being cut open. The limbs 2, 3 can then be inserted into the plug connections 4, which is irreversible. For this purpose, the cotton gauze must be pushed slightly against the limb to expose the end of the limb to be inserted with the tongue 5. After the limbs 2, 3 have been inserted, their textile material is sewn to that of the trunk by means of a mattress stitch. A styrofoam head with a mask is then placed on the extension 11 by means of the special head holder 15 with a mask or a conventionally stuffed textile doll's head. A styrofoam head with mask is a very special head for a textile doll and is made from a prefabricated, thermoformed mask made of PVC film, which is coated with glue and then covered with textile material. The mask is then placed on a corresponding styrofoam head and the textile fabric is sewn on the back of the head. The head holder 15 is attached to such a prepared head, which then enables secure attachment to the neck extension 11 in such a way that the head can be rotated or pivoted into various natural positions as often and as often as desired. The textile material of the head cover is finally sewn to that of the fuselage.

4a and 4b show the construction of the head holder 15 according to the invention, namely in FIG. 4a in a cross-section and underneath in addition in FIG. 4b in a perspective view, in FIG. 4a the finished head holder 15 is in a cross-section from the side shown here. It essentially consists of three cylindrical disks 16, 17, 18, which are arranged on one another on a common cylinder axis. The middle disk 17 is of somewhat smaller diameter than the other two 16, 18, so that a groove is formed between them. The top pane 16 now has, as it were, a radial incision 19, which is intended for receiving the lower edge of the face mask. Along the cylinder axis, the head holder 15 is penetrated by a channel 22 with a rectangular cross section. The cross section of the channel 22

is dimensioned little larger than that of the neck extension 11 on the trunk. The bottom disk 18 is excluded at the bottom, so that an edge 31 is formed, the function of which will be explained later.

4b shows the head holder 15 before it is assembled in a perspective view, on the basis of which it becomes clear how it is manufactured. For manufacturing reasons, it consists of two molded parts 24, 25, of which the lower 25 forms the lower half of the disc 16 and the disc 17 and 18 in one piece. The upper injection part 24 forms the upper part of the disk 16. If the head holder 15 were only made of one piece, it would be difficult to make the deep incision 19 by means of a corresponding slide on the injection mold. In the selected embodiment with two molded parts, the radial incision 19 is formed by a simple step 26 on the lower molded part 25. A raised edge 28 runs along the outer edge of the higher step 27. The higher step 27 has holes 29 into which the pins 30 fit on the upper molded part 24 acting as a cover. This molded part 24 also has on the side with the pins 30 a radius reduced by the edge 28 on the lower molded part 25, so that it can be positively plugged onto the lower molded part 25. Some glue can be used to achieve a positive connection.

Fig. 5 shows the function of the head holder 15, which is shown here seen from the side. In the work sequence, the mask 21, after it has been covered with textile material and painted, is put over a styrofoam head 23, so that a shapely back of the mask 21 is created. The rest of the textile material, which was glued over the mask 21, is sewn together at the back and top of the styrofoam head 23. Then the head holder 15 is inserted with its incision 19 on the lower edge termination 20 of the mask 21 and glued therein. The ends of the textile material are coated with glue and glued into the groove between the discs 16 and 18. So that the head prepared in this way can finally be plugged onto the neck extension 11, the edge end 20 of the mask 21 must still be pierced with a sharp, sharp knife, for example a Japanese knife, by piercing the channel 22. The head can then be plugged onto the neck extension 11 of the trunk, the neck extension 11 being inserted through the channel 22 like a flat plug connection and being pushed into the styrofoam head 23. The cervical process 11 expands the slit which is created by this puncturing in the lower edge end 20 of the mask 21 when it is pushed through, as a result of which the cervical process 11 is held therein. On the other hand, the channel 22 can additionally be slightly tapered towards the top, so that the shark extension 11 is jammed in it and the adhesive force in the channel 22 keeps it relatively strong, so that at least a greater force would be required to pull it out of the channel 22 to draw. In another embodiment, a flexible part arranged in the head holder 15 can also be provided, which projects slightly into the channel 22 at a steep angle. This would

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de then pushed away when inserting the cervical process 11 and wedging it with tension so that it would act on the cervical process 11 like a barb. The neck extension 11, once inserted, is held in this way in the head holder 15. The head holder 15 can only be pushed onto the neck extension until the lower edge 31 of the disk 18 touches the shoulder area of the trunk 1. Because of the recess in the disk 18, however, a small piece of the neck extension 11 remains free, that is to say not enclosed by the channel 22. The area which remains free in this way guarantees a possibility of torsion of the neck extension 11 and thus enables the head to be turned laterally. Finally, the textile material on the shoulder area of the fuselage is drawn into the groove between the two disks 16 and 18 with a hand thread and firmly knotted there. The head is now firmly seated on the neck extension 11 and can be turned sideways and swung up and down, just like the natural movements of the head.

6 shows a doll which has been completed so far, the skeleton being put together being shown primarily and the stuffed cover being indicated only by dashed lines. As can be seen, the plug connections 4 are arranged in the shoulder area of the trunk 1 in such a way that the arms 2 practically line up with the shoulders. The plug connections 4 in the hip area, however, are arranged so that the inserted legs 3 enclose an acute angle of approximately 15 °. This is achieved by the tabs 12 of the two plug connections 4 being at an angle of 15 ° to one another.

7 shows how flexible a textile doll made with the doll skeleton according to the invention is. The skeleton is drawn inside this doll, which here takes the position of a shot put. A major advantage of the doll skeleton according to the invention is that all limbs, including the head and in particular the torso, can be rotated, that is, torsion in their longitudinal axis is possible. The shoulder of the shot put is approximately at right angles to his pelvis in the hip area. Because the limbs 2, 3 are about half the width of the stuffed limbs, slight bends can be made even in the respective sheet plane, which of course causes the sheet to be bent up or down on the inside of the curve. This bending up and down is easily possible within the scope of the link diameter of the stuffed link. It goes without saying that limbs 2, 3 are bendable about axes that run in their plane. In particular, the shoulder, expressive and wrist, hip, knee and ankle joints are bent in this way. As said, however, a bend at right angles to these bends is also possible to a limited extent. This allows the feet to take different directions, for example. Even the bent legs can be spread or twisted, about to the same extent as with a natural body. The same goes for the arms. The stretched arms and hands can move about 270 ° on the natural body

are rotated, which is also easily possible with the skeletal arm according to the invention. The hands with the individual fingers can also be bent very naturally. For example, the fingertips can be put together at a common point, the hand can make a fist and hold something, or even individual fingers can be spread apart. The head can also perform the same movements as the natural head by means of the extension 11, since it is held firmly on the extension 11 by means of the head holder 15. It can be rotated by a total of approximately 180 °. For a rotation through 90 ° in one direction, the torsion extends approximately over an area twice the length as the width of the extension 11. This also applies to the limbs 2, 3. The head can also be swung open, as shown in FIG. 6 is indicated. Of course, the swiveling is also possible until the chin is against the chest. Thanks to the construction of the doll skeleton according to the invention by means of sheet metal parts, these many movement possibilities are given and the holding and remaining of set body positions is guaranteed. It can be bent and twisted many times, and so different body positions can always be adjusted without damaging the skeleton. The doll's skeleton according to the invention is also very inexpensive. His body 1 and limbs 2, 3 can be produced by simple stamping work, the head holder 15 by injection molding. To make it a little friendlier to touch, the sheet metal parts are advantageously provided with an epoxy resin color coating, which is possible in various colors. Such a coating also protects against rust and prevents contamination of the stored stamped parts. A light, skin-like color may be best to prevent the skeleton from shimmering through the cover fabric. It can also be stored in a very space-saving manner by the arrangement shown in FIG. 1. For presenting and selling, it can be fixed on a plastic or cardboard base and, for example, be covered with additional plastic film, which is drawn down over the arrangement using a deep-drawing process using negative pressure.

Claims (1)

Claims 1. doll skeleton for crafting textile dolls, characterized in that it includes a torso (1) with a neck extension, separate arms (2) and legs (3) each made of a flat stamped part made of inelastic, flexible sheet metal and a head holder (15) made of plastic, the arms (2) and legs (3) can be fastened to the fuselage (1) by means of a plug connection (4) with barbs (5) and the head holder (15) by means of a flat plug connection. 2. Doll's skeleton according to claim 1, characterized in that the head holder (15) forms three cylindrical disks (16, 17, 18) arranged one on top of the other on a common cylinder axis, the mean diameter (17) of which is smaller than that 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 11 CH 680 049 A5 12 the other two (16, 18) and their upper disc (16) has a radial incision (19), and that the head holder (15) is penetrated along the cylinder axis by a channel (22) which extends transversely through the radial incision (19) runs and forms a flat receptacle for receiving the cervical process (11). 3. doll skeleton according to claim 2, characterized in that the head holder (15) consists of two molded parts (24, 25), one (24) of which forms the upper part of the disc (16) and the other (25) of which is the lower part Forms the disc (16) and the discs (17) and (18), the molded parts (24, 25) having pins (30) and holes (39) so that they can be plugged together. 4. Doll's skeleton according to one of the preceding claims, characterized in that the plug connections (4) for the limbs (2, 3) have at least one rectangular elevation (12) punched out of the fuselage (1) with two on opposite sides of the elevation (12 ) Include open sides, through which openings an arm (2) or leg (3) can be inserted up to a stop (14), which is arranged by a likewise punched out of the fuselage (1) and arranged behind the elevations (12) in the direction of insertion Elevation (14) is given, and that the limbs (2, 3) have a barb (5), which consists of a tongue (5) pointing against the insertion direction, which is punched out of the limb material, and on the elevation (12) through which the limbs (2, 3) can be inserted is intended to be attached. 5. Doll's skeleton according to one of the preceding claims, characterized in that each plug-in connection (4) includes two elevations (12) punched out of the fuselage (1) and parallel to one another in the form of tabs (12) into which an arm (2) or leg (3) can be plugged up to a stop (14), which is provided by an elevation (14), likewise punched out of the fuselage (1) and arranged behind the tabs (12) in the insertion direction, and that the limbs (2, 3) have a barb (5) which consists of a tongue (5) pointing counter to the direction of insertion, which is punched out of the limb material and is intended to be hung on one of the tabs (12). 6. A doll's skeleton according to one of the preceding claims, characterized in that the stamped part which forms the trunk (1) includes an extension (11) which acts as a neck and which is at most one fifth the width of the shoulder of the trunk and the approximate length of the shoulder width. which ends in a tip (13). 7. doll skeleton according to one of the preceding claims, characterized in that the trunk (1) in the shoulder and hip area is wider than in the rest of the part and that the tabs (12) of the plug connections in the hip area of the trunk (1) at an angle of about 15 ° to each other, such that the inserted legs (3) also enclose this angle. 8. Doll skeleton according to one of the preceding claims, characterized in that the limbs (2, 3) are straight sheet metal strips which are rounded at the ends and have a barb (5) in the end region of the side to be inserted, which barbs (5 ) exists, which points in the direction of the limbs (2, 3). 9. doll skeleton according to one of the preceding claims, characterized in that on the arm ends as stamped insert hands (6) with individually shaped fingers (9) are attached by spot welding, the stamping material of the insert hands (6) being an inelastic and more flexible sheet metal than is that of the other stamped parts. 10. Doll skeleton according to one of the preceding claims, characterized in that the stamped parts (1, 2, 3) are provided with an epoxy resin color coating and that the legs (3) have approximately twice the trunk length in the inserted state. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65