US3010253A - Jointed doll - Google Patents

Description

Nov. 28, 1961 R. K. OSTRANDER JOINTED DOLL 2 Shets-Shet 1 Filed Jan. 17, 1958 INVENTOR. QM \W ATTORNEYS United States Patent 3,010,253 JOINTED DOLL Robert K. Ostrander, 497 Prospect St., Maplewood, NJ. Filed Jan. 17, 1958, Ser. No. 709,677 2 Claims. (Cl. 46-161) This invention relates to dolls and more especially to jointed dolls.

-It is an object of the invention to provide a jointed doll which is capable of taking more different positions than any of the dolls of the prior art. More especially, it is an object of the invention to provide a fully jointed doll which is capable of taking substantially any position which the human body can take.

The invention includes a doll construction having combinations of pivoted and ball and socket connections providing the wide variety of adjustments described while at the same time having body and limb contours which approximate those of a human being. Some features of the invention relate to the manner in which the parts of the body, particularly the limbs and torso, are held in place by simple and inexpensive connections which are easily assembled.

Other objects of the invention are to provide a doll body made in two parts connected in such a way that the body can swing in any direction from the hips, and can also turn in any direction independently of the swinging movement; and in which the legs are so shaped and connected to the body, that the doll can cross its legs in realistic fashion.

Other objects, features and advantages of the invention will appear or be pointed out as the description proceeds.

In the drawing, forming a part hereof, in which like reference characters indicate corresponding parts in all the views; w

FIGURE 1 is an assembly view showing a doll made in accordance with this invention;

FIGURE 2 is a greatly enlarged sectional view showing the connectionsof the head and arms to the upper portion of the body of the doll shown in FIGURE 1;

. FIGURE 3 is an enlarged sectional view of the wrist joint of the doll;

FIGURE 4 is an enlarged sectional view taken on the line 4-4 of FIGURE 2 and showing the joint whereby the arm can be turned;

i located at the torso of the doll.

FIGURE 5 is an enlarged sectional view through the torso and leg connections, and also showing the ankle joint for one leg;

FIGURE 6 is an end view of one leg taken on the line 6-6'of FIGURE 5;

FIGURE 7 is a side view of the leg shown in FIG- URE 5;

FIGURE 8 is a sectional view on theline 88 of FIGURE 7;

FIGURE 9 is a front elevation of the lower part of the body;

FIGURE 10 is a sectional view taken on theline 10 10 of FIGURE 5;.and

FIGURE 11 is asectional view through one of the elbow joints.

This aPplication is a continuation-in-part of my patent application, Serial No. 640,504, filed February 15, 1957, now abandoned.

. FIGURE 1 shows a doll having ahead 11, abody 12,arms 13 andlegs 14. Thebody 12 is made ofupper part 16 and a pelvis orlower part 17, and these parts are joined together at a ball andsocket connection 19 This torso joint permits theupper part 16 of the body to swing in any direction and permits the upper part of the body to turn independently of the position into which it swings, as will be more fully explained in connection with one of the sectional views.

The expression ball and socket joint is used herein to designate a joint in which the bearing surfaces between the two parts have a substantially common center of curvature. These bearing surfaces may be merely zones of a sphere and they need not be continuous surfaces. The center of the joint is the center of curvature of the bearing surfaces. 7

The doll has each of its arms joined to theupper part 16 of the body by a ball and socket shoulder joint 2l. Each arm also has anelbow joint 22 and awrist joint 23. Between the shoulder and the elbow, there is arotatable biceps joint 24 which permits the portion of the arm below thisjoint 24 to rotate.

Each of thelegs 14 is connected to thelower part 17 of the body by a ball andsocket leg joint 27. There is apivoted knee joint 28 in each leg, and anankle joint 29 for connecting the foot to the lower end of the leg. The construction of all of these joints will be described more fully in connection with the detail views.

Thehead 14 is preferably made of soft plastic material, such as the vinyl plastic commonly used for high: grade dolls. There is an opening in the lower end of the head which snaps over aflange 32 of anouter cap 33 extending up into the head. The peripheral edges of the opening through the head contact with an undercap 35 extending downwardly below theflange 32. Theouter cap 33 and undercap 35 are secured together, preferably by cement, and there is a joininghook 37 extend ing downwardly from the center of the undercap 35. This joininghook 37 is preferably made of wire with an upperspiral end 39 clamped between thecaps 33 and 35.

This construction secures the head to the composite cap structure; and abottom surface 42 of the undercap 35 is concave and spherical and bears against aconvex surface 44 of aneck ball 46 at the upper end of thedoll body 12. Thebearing surfaces 42 and 44 have a common center ofcurvature 48 and thus comprise a ball and socket joint on which the head can swing and turn in any direction.

Thehead 11 is held on the body by ajoiner 50 which is preferably a helical spring or other elastic tension element which engages thehook 37, at the center ofcurvature 48 of the ball and socket connection of the head of. the body. Thisjoiner 50 has its lower end connected to some other part of the doll and in the construction illustrated, thejoiner 50 also serves to hold the legs on the doll, as will be explained in connection with FIGURE 5.

Assembly of the doll is simplified by having thejoiner 50 perform more than one function but for the present it is sufiicient to understand that thejoiner 50 is under tension and that it urges thehook 37 downwardly so as to maintain thebearing surfaces 42 and 44 in firm contact with one another.

In order to prevent the pull or thejoiner 50 from biasing thehead 14 toward a center position, the joiner 50is located so that it extends to the center ofcurvature 48 of the head joint, and means areprovided for maintaining thejoiner 50 in a center position regardless of the position to which the head may be moved. In the construction illustrated, this means comprises an annular vane '64 comes in contact with thejoiner 62.

52 extending inwardly from the sides of theneck ball 46. The center opening through theannular vane 52 is large enough to receive the upper end of thejoiner 50, and as thehead 14 swings on theneck ball 46, thehook 37 swings about its connection to thejoiner 50 and about the center ofcurvature 48 without changing the tension of the joiner. This swing movement of thehook 37 is indicated in dotted lines in FIGURE 2.

The angle through which thehead 14 can swing is determined by the size of the opening in the neck ball through which thehook 37 extends. V I

Each of thearms 13 has aspherical surface 54 at its shoulder end. Thisspherical surface 54 bears against a concavespherical surface 56 provided at a shoulder opening of the body. Theball surface 54 andsocket surface 56 have a substantially common center ofcurvature 58. Across pin 60 is located in the hollow upper end of the 62 at the center ofcurvature 8.

Thejoiner 62 extends through an. opening 64in the upper part of thearm 13; and the arm can swing in any direction about thecenter 58 until the edge of the opening Thearm 13 is also free to rotate about the line of thejoiner 62, and this combined rotary and swinging movement makes the shoulder joint a universal ball and socket connection with the same freedom of movement as the head on the neck ball, already described.

7arm 13 and thiscross pin 60 is connected with a joiner V the hand will remain in various angular positions and has no bias toward a center position. Thejoiner 87 is under substantial tension so as to maintain enough friction in the ball and socket joint: to hold the hand in selected positions against the force of gravity.

FIGURE 5 shows the torso joint 19 at which theupper part 16 andlower part 17 of the doll body are connected together. Aball surface 96 at the lower end of theupper body part 16 bears against a complementaryspherical socket surface 97 to provide the ball andsocket joint 19. Theparts 16 and 17 are held together under moderate pressure by thejoiner 50 extending downwardly throught the center of curvature of the ball and socket surfaces 96 and 97. There is an annular centeringvane 99 for keeping thejoiner 50 in position Where it passes through the center of curvature of the ball and socket surfaces 96 and 97 and for causing thejoiner 50 to flex about this center of curvature as theparts 16 and 17 of the body swing about this vane center. This construction prevents an off-center pull which would give this torso joint 19 a bias toward its center position.

Thejoiner 50 extends downwardly through anopening 102 at the bottom'of theupper body part 16. The lower end of thejoiner 50 is connected by ahook 104 to a section of stronggum rubber tubing 105. There 7 are other hooks 10.6 and 107, which are ofsimilar con- Rotary movement of the arm about its own length is 7' obtained by the rotatable biceps joint 24. This joint 24 is formed by bayonet-typeflexible fins 70 connected to a lower portion of the arm and inserted into an opening in the upper part of the arm where hooked ends of thefins 70 snap over ashoulder 75 formed on the inner wall of the upper part of the arm. This connection holdsthe parts of'the arm in assembled relation but permits the lower part of the arm to rotate with respect to the upper part about an axis extending lengthwise of the arm. Theflexible fins 70 are integrally connected with the lower portion of thearm 13 and preferably, though not necessarily,

' of one-piece construction with the part of the arm to which they are, connected. Thesefins 70 have sufficient resilience to bend inwardly far enough to pass theshoulder 75 and then snap outwardly behind the shoulder- The elbow joint will be described in detail in connection with'FIGURE '11 after the knee joints have beendea pin 88 located inthe arm. This pin may be a stud molded to one-half of the forearm. Thejoiner 87 is preferably an endless band which is placed over the pin 88' before the two halves of the forearm are cemented together along a seam 89.

- At its lower end, the joiner. 87 extends around a hook.

92 which is secured to thehand 86 either by molding the hand around the lower end of thehook 92, or by inserting the hook into an opening inthe hand with a press fit to lock it. e

' The diameter of the ball section 78 is slightly larger than the lower portion of the forearm with which 'it merges, and this increases somewhat the angle through which the,hand 86 can move with respect to the forearm. Thejoiner 87 passes around thehook 92 at a location which is substantiallycoincident with thecenter of curvature of the ball section 78 and thespherical bearing surface 80. This permits thehand 86 to move angularly about the center of rotation of the ball and socket joint without changing the tension of thejoiner 87. In this way struction to thehook 104, and which are'also connected to. the section oftubing 105. Thesehooks 106 and 107 connect the right and left legs, respectively, to the '14 has a sphericallyshaped surface 108 which bears against a socket opening 109in thelower portion 17 of the doll body. This sphericallyshaped surface 108 is off-set inwardly from the thigh portion of the leg so as to provide a substantial angular movement of the leg before the thigh portion strikes against thebody of the doll at the bottom of the socket 109.v The amount of this angular movement is further increased by the shape of thepelvis 17 with thesockets 109 at a substantial angle to the vertical and with a relatively short section of the body portion between them at the lower ends of thesockets 109.

In the preferred construction, the lower part of the spherically "shapedsurface 109 merges with the thigh portion of the leg at a substantial right angle to the thigh portion, and preferably at an angle which is an acute angle slightly less than a right angle. This also facilitates the inward swinging of the legs for crossing.

Another feature which further facilitates the crossing of the legs is the forward slope of; the sockets-109.

from opposite sides of the legs and preferably of one-- piece construction with the leg as best shown in FIG- URE 6. The bosses 111 are preferably made long enough so that only a relatively small length of the pin 110 is exposed and any sliding of the hook 106 lengthwise along the pin 110 does not displace the hook very far from the center ofcurvature of the sphericallyshaped surface 108. This makesv it unnecessary to provide a depression in the pin ,110.or ,to, have the pin otherwise of special construction forcentering the hook 106.

The.hook 107 is similarly connected with theother leg 14;' and the hooks 104,106 and 107 are of such] length that they put the section oftubing 105 under substantial tension when the doll is assembled. This provides a suflicient pressure between thesurfaces 108 and 109 to obtain friction for holding the legs in various set positions; and the section ofrubber tubing 105 provides this necessary pressure without requiring as much space as would be required for a spring. Thehooks 106 and 107 are substantially in line with one another, and they cooperate with thehook 104 to pull the section oftubing 105 into a triangular shape with the base of the triangle substantially in line with thehooks 106 and 107. If desired, a spring can be used for connecting thelegs 14 to the body.

FIGURES 7 and 8 show the knee joint 28. This is a pivoted joint. The thigh portion of theleg 14 has agroove 112 at its lower end with straight andparallel side walls 113 and 114. A metal connection frame orliner 120 fits into thegroove 112. This liner is of spring metal and it haslugs 122 which snap intorecesses 124 in the side walls of thegroove 112. This holds the metal liner in assembled relation with the thigh portion of the leg and the sides of theliner 120 are in contact with the sides of thegroove 112.

Anaxle 128, preferably a rivet, extends through atongue 130 formed at the upper end of the lower part of theleg 14. Thegroove 112 is closed at the front (left side in FIGURE 7) and the inside surface of the closed front of the groove, together with the surface at the top of thegroove 112 are curved about a center of curvature which coincides with the axis of the rivet oraxle 128.

Thetongue 130 fills the space between the sides of theliner 120, and the rivet oraxle 128 holds the sides of theliner 120 in contact with the sides of thetongue 130 with suflicient pressure to provide friction for holding the knee joint of the doll in any set angular position.

In the original assembly of the doll, theliner 120 is first spread and fitted over thetongue 130 so as to bring openings in theliner 120 into register with the opening provided in the tongue for theaxle 128. The axle is then inserted through the openings in theliner 120 and through the opening in thetongue 130. One end of theaxle 128 is preferably provided with a head before assembly, and the other end of the axle is then peened or riveted to provide a head at the opposite end of the axle so that it is permanently connected with theliner 120 and thetongue 130.

Theliner 120, after being thus attached to the lower pant of the leg, is pushed upwardly into thegroove 112 and the side walls of the groove are sprung apart slightly until thelugs 122 pass therecesses 124. The side walls of the groove 118 then snap back into contact with the sides of theliner 120 and the knee joint is assembled. In order to prevent theliner 120 from being visible, the side walls of the groove 118 are made withrecesses 134 for receiving theliner 120, and there is only a running clearance between the sides of thetongue 130 and theside walls 113 and 114 of the groove 118 ahead of and behind theliner 120.

FIGURES 5, 7 and 10 show one of the ankle joints 29. The lower end of theleg 14 extends into a socket in afoot 138. This portion of the leg which extends into the foot is formed as atongue 140 with substantially straight and parallel side walls and a cylindrical bottom wall through which there is anopening 142. The socket in thefoot 138, into which thetongue 142 extends, has substantially flat and parallel side walls confronting the sides of the tongue but with running clearance. Anarcuate rib 144 extends across the inside of thefoot 138 and forms a bottom for the socket into which thetongue 142 extends. Thisrib 144 is preferably molded as one piece with the upper portion of the foot and it has a radius of curvature substantially equal to that of the bottom face of thetongue 142.

Thefoot 138 is secured to theleg 14 by ahook 146 extending around therib 144 through theopening 142 in the bottom of thetongue 140 and then upwardly to ajoiner 148. There is arecess 150 in the bottom face of therib 144 for preventing movement of thehook 146 along therib 144.

Thejoiner 148 is preferably an endless elastic band which passes around apin 152 located in the calf of theleg 14. As in the case of the connection of the hand to the arm, thispin 152 is preferably molded as one piece with a portion of the leg, and thejoiner 148 is placed over thepin 152 before the opposite halves of the leg are cemented together along aseam 154.

The location at which thehook 146 engages thejoiner 148 can be at the center of curvature of therib 144; but this is not necessary in the case of the ankle joint because thepin 152 is far enough above the foot 132 so that there is very little angular movement of thejoiner 148 as thefoot 138 swings from one extreme to the other of its movement. Therefore there is not sufiicient change in tension of thejoiner 148 to give the foot 138 a bias toward a mid position. The tension of thejoiner 148 is suflicient to provide friction between thetongue 142 and therib 144 for holding the foot in any set position.

FIGURE 11 shows the construction of one of the elbow joints 22. This construction is somewhat similar to the knee joint. A metal liner is connected to the forearm by anaxle 162 at the center of curvature of acylindrical surface 164 on atongue 166 at the upper end of the forearm. Thistongue 166 fits into the upper portion of the arm and is held there bylugs 168 struck from the resilient metal of theliner 160 in position to engage behindshoulders 170 on opposite sides of the upper portion of the arm.

In the construction shown in FIGURE 11, the limit to which theliner 160 can be inserted into the upper portion of the arm is determined by afin 172 extending inwardly across the upper end of theliner 160. Thisfin 172 is preferably molded as one piece with one half of the arm, the halves being cemented together along aseam 174 before the forearm and itsliner 160 are inserted into the upper portion of the arm.

The preferred construction of the doll has been illustrated and described, but changes and modification can be made and some features can be used in different combinations without departing from the invention as defined in the claims.

What is claimed is:

l. A jointed doll including legs, a knee joint in each leg, a body having a pelvis with circular openings therein for receiving the upper ends of the legs, each of the legs having a thigh portion with the surface of the upper end of said thigh pontion spherical and of larger diameter than the leg-receiving openings in the pelvis, and resilient means connecting each leg to the pelvis, said spherical upper ends of the thighs which are outside of the openings in the body and at the bottom of the openings when the doll is in standing position, extending inwardly for a substantial distance beyond the inner side of the thigh that confronts the other thigh of the doll and far enough beyond the openings in the pelvis to permit the legs to swing inwardly to a position where one thigh crosses the other, and the leg-receiving openings in the pelvis facing partly forward so that projections of the longitudinal axes of said openings on a horizontal plane through the doll, when the doll is standing upright, make an obtuse angle with one another to facilitate crossing of the legs of the doll when the doll is in a sit-ting position.

r 2. The jointed doll desctibed in claim 1 andin which the spherical upper end portion of each leg has the lower part of its surface meet the inner side of the at an angle not substantially greaterthan a right angle.

References Cited'in the file of this patent UNITED STATES PATENTS 130,068 Parent July 30, 1872 1,34 ,953 7 Gould July 20, 1920 2,129,421 Hales Sept. 6, 193:;

Graves May 1, 19

Senior et a1. Sept. 30, 1952 Cleaver Aug. 31, 1954 Gardel-et a1. Mar. 5, 1957 Garde] et a1. May 7, 1957 Cohn Sept. 3, 1957 Cohn Feb. 23, 196 0 FOREIGN PATENTS Great Britain Mar. 5, 1954

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