JP2006262944A - Block toy - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a block toy capable of connecting various shapes of blocks to each other successively, thereby creating various shapes of objects such as a robot and an animal. <P>SOLUTION: A main body block 10 is formed with a ball part 20 comprising a plurality of kinds having various shapes and constituting one side of a ball joint at a prescribed position and a ball housing part 30 capable of housing and holding the ball part 20. A plurality of main body blocks 10 are held at least movably between the ball part 20 and the ball housing part 30 or held locked in an unlock-able manner by connecting the ball par 20 and the ball housing part 30, so as to create an object of a prescribed shape. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a block toy, and the blocks are connected one after another by a ball joint composed of a ball portion provided on the block and a ball accommodating portion for accommodating the ball portion, such as a robot or an animal. The present invention relates to a block toy that can create objects of various shapes.

  Conventionally, resin molded block toys such as LEGO (registered trademark) and diamond block (registered trademark) have been widely known as block toys that can be played by connecting many blocks such as blocks and creating various shapes. Yes. These toy blocks are made up of basic blocks of several sizes and colors of a predetermined size such as a rectangular parallelepiped shape, a plate shape, a rod shape, and its multiple dimensions, and these basic blocks and special shaped blocks can be connected to play. it can. These basic blocks and special blocks are commonly composed of various shapes of main body portions, a plurality of fitting columnar protrusions arranged on the top surface according to the size of the main body portion, and each fitting cylinder on the bottom surface thereof. It has a projection and a fitting recess that can be fitted, and is connected so as to be fitted. The connection can be easily performed by a child's force, and in a connected state, a connection force that is not easily separated by the elastic deformation of the fitting recess described above is maintained.

  By connecting these basic blocks and special shape blocks using different sizes and colors, it is possible to assemble and create buildings, vehicles, dolls, animals, etc. of various shapes. In recent years, various application blocks that connect basic blocks as joints in addition to the basic blocks have been developed and provided in order to facilitate variations in production examples. For example, this type of joint portion employs a ball joint structure composed of a ball portion and a ball housing portion, and the ball portion of this ball joint structure and the housing portion that houses the ball portion are each a basic block. By connecting ball joints that are integrally formed on a part of the base block and provided on the basic block, for example, joint parts of arms and legs of robots, dolls, animals, etc., connecting parts of vehicles, and other movable parts Etc. can be assembled.

  There exists patent document 1 as invention of the joint part (joint part) of this kind of block toy. In this joint block toy, the progress of wear of parts is suppressed by interposing an elastic body between the ball shaft portion and the ball bearing portion that accommodates the ball shaft portion.

  Moreover, there exists patent document 2 as invention of the doll toy which employ | adopted the ball joint as a joint part. In this doll toy, the doll can take a more realistic action pose by imitating the movable part of the joint with the movable part of an actual human body. Since this doll toy is sold in a completed form, unlike the block toy, the idea as an assembly toy and the possibility of infinitely assembling parts are not available. On the other hand, Patent Document 3 discloses an assembly-type creative toy that employs a simple ball joint structure at the joint. This assembling-type creative toy uses a pencil or other writing instrument as part of the assembly parts, with the pencil as the central skeleton, basic parts corresponding to joints, arms, and legs for attaching limbs to the central skeleton, By assembling hand, foot, shoulder, head, and other special parts that have a characteristic shape that makes the image of a character in order, a shape simulating a robot or an animal can be completed.

JP-A-5-293256. JP 2004-73514 A. JP-A-9-173656.

  By the way, the ball joint structure shown in Patent Document 1 is a special structure provided in a special block for realizing the movable connection of parts (parts) assembled with basic blocks, and is a doll or animal body to be assembled. The arms, legs, and vehicle body are assembled from basic blocks, and these special blocks are used to form joints, vehicle couplers, and the like. In addition, since the stacking (connection) direction of the blocks is restricted by the protrusions formed on the basic block, the movable range of the ball joint structure can be moved by moving from 90 ° to 180 ° on a plane substantially along the plane of the block. It has become.

  The doll toy shown in Patent Document 2 is intended to realize a realistic action pose of a completed small doll (figure) as described above. For this reason, the shape of the ball joint of the ball joint is processed so that the joints of the shoulder, elbow, wrist, hip joint, knee, and ankle are close to the actual joint movement. Therefore, this type of ball joint structure cannot realize a general-purpose connection structure that allows the blocks to freely move in various shapes, such as a block toy.

The assembling-type creative toy shown in Patent Document 3 is based on the premise that a writing instrument such as a pencil is used as a skeleton, and as shown in FIG. A relay member corresponding to a joint and a rod-shaped member (arm member) corresponding to arms and legs and having ball portions at both ends are assembled to the holding member. For this reason, even if a robot, an animal or the like is devised and assembled, only a simple rod-like limb with a writing instrument as a skeleton can be assembled.
Therefore, the object of the present invention is to solve the above-mentioned problems of the conventional technology, and each part to be assembled is extremely movable as compared to the conventional block toy, and the shape after assembly is entirely or The object is to provide a block toy that can be partially changed easily.

  To achieve the above object, the present invention comprises a plurality of types having various shapes, and a ball portion constituting one of the ball joints at a predetermined position and a ball receiving portion capable of receiving and holding the ball of the ball portion. By connecting the formed body block with the ball portion and the ball housing portion, a plurality of the main body blocks are connected while being held at least movable between the ball portion and the ball housing portion or in a state of being releasably locked. Thus, an object having a predetermined shape is created.

  The ball portion is preferably a resin molded product integrally formed with the main body block through a stem having a predetermined length or in a surface contact state where a part of the ball is cut off.

  The ball housing part is preferably a resin molded product in which a spherical housing part for housing the ball part and a stem housing part for housing the stem are integrally formed.

  The spherical housing portion preferably has an inner diameter capable of housing the ball, and the depth from the opening is preferably set deeper than the radius of the ball.

  The stem accommodating portion has an inner diameter capable of accommodating the stem, the depth from the opening is set deeper than the radius of the stem, and the ball joint is releasable by accommodating the stem in the stem accommodating portion. It is preferable to be able to lock.

  The main body block is preferably finished in a three-dimensional shape imitating a part of a human body or an animal, the ball part and the ball accommodating part are formed at both ends in the longitudinal direction, and the connecting part constitutes a joint part. .

  It is preferable that the main body block in which the ball portion and the ball housing portion are formed is held in a runner frame as various shaped parts, and each of the parts is molded with a resin molded product of each color for each runner frame.

  According to the present invention, a ball joint composed of a ball part provided in a part of the main body block for connecting the main body blocks of various and various shapes and a ball accommodating part for accommodating the ball part one after another. By connecting, it is possible to create objects of various shapes such as robots and animals.

  Hereinafter, as the best mode for carrying out the block toy of the present invention, the following embodiments will be described with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing an example of a robot assembled using 14 types of blocks described below (hereinafter referred to as “parts” in the sense of constituting parts of an assembly). As can be seen from the reference numerals shown in FIG. 1, this robot is a battle robot assembled by connecting and using 10 types of 14 types of parts. In this robot production example, in addition to the connected head, torso, arms, and legs (legs), armor parts were attached to the shoulders to express the uniqueness of a battle robot.

  Hereinafter, the concept (features), actual part shapes, application examples, etc. of these 14 types of parts will be described with reference to the explanatory diagrams of the respective parts. As shown in FIGS. 2 and 3, these 14 types of parts are formed of resin molded products in which 14 types are molded at once in one runner frame 1. In this example, an ABS resin molded product was formed in consideration of the mounting feeling and durability when the ball joint portion was attached and detached. In addition, various resin materials can be used as long as the resin can provide inexpensively a material having excellent molding workability and excellent elasticity and durability as a part, such as POM. FIG. 2 shows a state in which each part attached to the runner frame 1 is seen from the front surface, and FIG. 3 shows a state seen from the back surface. When each part is provided (sold) to the user in such a state that it is integrally attached to the runner frame 1, the thin runner is neatly separated with a nipper or the like, as in the case of a normal plastic model, and necessary as necessary. Parts can be taken out. It is also possible to consider the convenience of refilling a specific part, or sell it as a set or a single part in a form in which the parts are separated beforehand.

  The features of each part will be described below. The part A shown in FIG. 4A is a basic part having the most basic shape, and is formed so that the ball housing part 30 forms a right angle on two faces of the substantially cubic body part, and a stem on the other side. The attached ball is integrally formed. The feature of this basic block is that even if it is turned upside down, the joint housing part and the joint ball mounting structure do not change. When the runner frame 1 is actually formed, two ball portions 20 and two stem-equipped ball portions 20 are formed based on the basic shape described above (see FIG. (B)). FIG. 4C is a view showing a modified example of the ball portion 20 with the stem and the attachment of the ball.

  As a configuration of the ball joint, the ball portion 20 is integrally formed with the main body portion 10 through a columnar stem 21 having a predetermined length or in a surface contact state in which a part of the ball portion 20 is cut off. On the other hand, the ball accommodating portion 30 is integrally formed so that the spherical accommodating portion 30 that accommodates the ball portion and the stem accommodating portion 31 that accommodates the stem form a line. At this time, the spherical accommodating portion 30 has an inner diameter that can accommodate the ball portion 20, and the depth from the opening is set deeper than the radius of the ball portion 20. If it fits in the spherical housing, it will not fall off. When detaching, the ball can be pulled out from the housing using the elastic deformation of the opening edge of the ball housing. Similarly, the stem accommodating portion 31 has an inner diameter capable of accommodating the stem 21, the depth from the opening is set deeper than the radius of the stem 21, and in the state where the stem 21 is accommodated in the stem accommodating portion 31, the ball joint Is held in a releasably locked state.

  Parts B shown in each figure in FIG. 5 are exterior parts (hereinafter referred to as exterior parts, which are attached to the outer surface of the main body as a skeleton and have strong accessory elements such as robot armor). Further, a ball housing portion 30 in which a stem housing portion 31 is integrally formed is provided on the back surface of another flat rectangular parallelepiped body portion, and a connecting projection 25 is formed on the front surface side. In the present embodiment, as shown in FIG. 5B, the plurality of ball portions 20 and the ball portions 20 held by the stem 21 are molded together. These parts B can be used as separate shapes by separating the stem 21 of each part from the main body as shown in FIG. As shown in FIG. 2C, when the protrusion 25 is cut off, the inner surface of the exterior part can be bonded to the surface of the main body (see FIG. 3E). Here, an application example of the part B will be described. FIG. 4D shows an example in which a doll model or the like is attached so that the hole 26 of the head H is inserted into the protrusion 25 of the part B at the tip of the ball joint located at a position corresponding to the neck of the trunk (not shown). . FIG. 4E shows an example in which the protrusion 25 of the part B is cut out and the exterior plate 40 is attached by surface bonding as described above.

  6 also includes an exterior in which a ball portion 20 or a stem-equipped ball portion 20 is integrally formed on the surface of a rectangular flat plate as the main body portion 10 and a connecting cylindrical protrusion 25 is provided on the back surface thereof. It is a connecting part. As shown in FIG. 5B, the exterior plate 4 can be connected by inserting the protrusion 25 into the mounting hole 4 ′ on the inner surface of the exterior plate 4. On the other hand, the ball accommodating portion 30 of the part A on the main body side can be connected by the ball portion 20. The figure (c) and the figure (d) have shown the ball | bowl part 20 from which the length of the stem 21 differs, and in the case of the part with the stem 21 as shown in the figure (d), figure (e) As shown in FIG. 5, the stem 21 can be accommodated in the stem accommodating portion 31 in a state where the component is bent to a right angle and locked.

  The part D shown in each figure of FIG. 7 is a connection part mainly used for attaching exterior parts, such as armor boards, such as a battle robot. As shown in FIG. 3A, the basic part 10 has a substantially L-shaped bent shape when viewed from the side, and the ball accommodating portion 30 is formed on the upper surface of the bent portion 11 on the tip side. A stem-equipped ball portion 20 is formed along the longitudinal direction. FIG. 4B shows a part shape in which stem-equipped ball portions 20 are formed on both sides with respect to FIG. By continuously using the connecting part D, for example, by connecting the stem 21 in the state in which the stem 21 is accommodated in the stem accommodating portion 31, the whole as shown in FIG. A rod-shaped member can be assembled. Further, since the shape of the stem-equipped ball portion 20 on the distal end side resembles a leg of a doll or the like, as shown in FIG. By connecting the ball accommodating portion 30 to the tip, it is possible to make the doll stand in a well-balanced manner as the foot portion of the doll.

The part E shown in each figure of FIG. 8 is a rod-shaped part mainly used for extending a part in a longitudinal direction. According to the application, as shown in FIG. 5A, in this embodiment, three types of length parts having the ball part 20 at an intermediate position so as to connect the main body part 10 were manufactured. As shown in FIG. 4B, the intermediate ball portion 20 can be connected so as to fit a ball accommodating portion 30 such as a part B. The ball portion 20 located at the center of the rod-like part is connected to the intermediate ball portion 20. As a center, the part B can be pivotably connected. Thus, it is also possible to use the body portion 10 of the part E having a linear shape as the rotation axis of the part B. It is also preferable to use it as a long part that is connected to other parts in a state in which turning is restricted and integrated as a whole (see FIGS. 8C and 8D).
Parts F1 and F2 shown in FIGS. 9A and 9B are parts configured to receive the ball portions of a plurality of ball joints by forming a plurality of ball housing portions 30 in which the stem housing portions 31 are integrally formed. As shown in FIG. 5A, the part F1 is formed so that the lock directions of the ball housing portion 30 integrally formed with the stem housing portions 31 provided at both ends and the intermediate portion are orthogonal. In FIG. 2B, two ball accommodating portions 30 are arranged in parallel. The part F2 which shortened the full length of this part F1 is also convenient. (FIG. 9 (c)). One ball housing portion 30 is formed on the back side of the part F2.

  The part G shown in each figure of FIG. 10 is a basic part for making the connected parts turn. As shown in FIG. 5A, the ball portion 20 is sandwiched between L-shaped flanges 10a and 10b, and the ball portion 20 is attached to the inside of the flange 10a. The ball portion 20 or the ball portion 20 with the stem 21 is attached to the flange bottom surface 10b. Are integrally molded. By interposing this part G between other parts, it is possible to realize turning of other parts connected to the part G. Further, in this example, as shown in FIG. 4B, parts having the ball portions 20 provided on both sides of the flange side surface were manufactured. Further, as shown in FIG. 8C, the ball portion 20 at the basic position in FIG. 9A can be cut out, and the opposite ball portion 20 can be left. In that case, it becomes easy to attach and use exterior parts to the ball portion 20.

  Each part H shown in FIG. 11 is a bending ball part for a double joint. As shown in FIG. 2A, two ball portions 20 for accommodating in a ball accommodating portion 30 of parts connected from both sides (not shown) are arranged in the longitudinal direction on one surface of a vertically long oval base plate 10. Is formed. In the present embodiment, a total of four ball portions 20 are formed, two on each side surface of the base plate 10. By using this bending part, it is possible to form a double joint with a part I (described later) as shown in FIG. Further, by using the part H in FIG. 5B, a strong double joint can be formed in which the parts I are arranged in pairs and bent as shown in FIG. Furthermore, as shown in FIG. 5E, the ball portion 20 at the diagonal position among the four ball portions 20 can be cut out and used as an irregular bending / extending part.

  Each part I shown in FIG. 12 is a bending part for a double joint. As shown in FIG. 2A, a vertically long ball accommodating portion 30 in which a stem accommodating portion 31 is integrally formed on a rectangular parallelepiped main body portion is formed on one side to accommodate parts connected from both sides in the longitudinal direction. be able to. In this embodiment, as shown in FIG. 2B, two ball portions 20 are integrally formed on the side surface in the longitudinal direction. By using this bending part, it is possible to form a double joint that connects the parts H ((c) in the figure).

  The part J shown in each figure of FIG. 13 is also a bending / extending part for a double joint. A ball portion 20 is integrally formed on one surface of a base plate constituting a surface in which a crank-shaped flange surface is twisted at 90 °, and a ball housing portion 30 is integrally formed on the other surface. In this embodiment, as shown in FIG. 4B, ball portions 20 are formed on both sides of the base plate. If this part J is used for a joint part, as shown in the figure (c), the part I shown by the virtual line can be moved on an orthogonal plane. In FIG. 4D, the parts are attached so as to face the ball portion 20 of the parts J, and are integrally molded. By using this bending / extending part, as shown in FIG. 2C, the two connected parts I can be rotated in the orthogonal direction. FIG. 4D shows an example of machining the part J. By cutting off the inner ball part 20, it becomes possible to connect parts at the opposite positions to those in FIG.

  14 is a part for forming a long part in which individual parts are pivotably connected. As shown in FIG. 2A, the ball accommodating portion 30 is attached to the inner surface of the substantially L-shaped flange, and the ball portion 20 with the stem or the ball portion 20 is attached to the outer surface of the other flange. By connecting a plurality of parts K as shown in FIG. 5B, a pair of parts O and the like described later can be used to form a flexion-extension joint, and other parts can be It can also be connected to a joint. Moreover, it is also possible to make this joint part into a long part using the part E (the figure (c)).

  Each part L shown in each figure in FIG. 15 is a part for securing a connecting portion at a plurality of positions to realize flexion and extension joints with other parts and integration into an integral part. As shown in FIG. 5A, a stem-equipped ball portion 20 and a ball portion 20 are attached to the side surface of a substantially L-shaped part main body, and two stem accommodating portions 31 are provided on the upper surfaces having different heights. Is integrally formed with the ball housing portion 30. As shown in FIG. 5B, the part L can be used as a pair with the part O, which will be described later, to form a flexion / extension joint. It can also be produced. For example, it is possible to add a part E to a part L as a joint part to make a long part (FIG. 3C).

  16 is a part that can form a flexion-extension joint in a state where the connecting portions are secured at a plurality of positions as in the case of the part L. As shown in FIG. 5A, the side surface is substantially T-shaped, a ball accommodating portion 30 is formed on the upper surface of each step 10a, 10b, and two ball portions 20 are formed on both sides of the longitudinal side surface. Are integrally molded. By using this part N, joint parts such as elbows and knees of movable toys such as dolls can be assembled as shown in FIG. Similarly to FIG. 15D, it is also possible to add a part E to make a long part (FIG. 15C).

  Similarly to parts L and N, part O shown in each figure in FIG. 17 is a part that can form a flexion and extension joint in a state where the connecting portions are secured at a plurality of positions. As this part, two types of symmetrical parts are prepared. For example, a part from the trunk to the hip joint can be formed by using the part constituting the waist of the doll as a part constituting the thigh. (A), (b) By utilizing this joint, a joint bending portion can be formed using parts I and the like (FIG. (C)).

  FIG. 18 to FIG. 21 show a modification in which a part of some parts from the part A to the part O described above is processed and a new composite special part is made by bonding or the like. Yes. As shown in FIG. 18, each part of the part B (the ball part 20, the protrusion 25, the stem 21) is separated from the main body part, and a part obtained by excising the lower surface protrusion 25 of the part C is bonded to the upper surface of the main body part. The original composite part (C + B) as shown in FIG. This composite part can have a movable connection structure when connecting exterior parts or the like by the projection 25 of the conventional part B.

  Similarly, as shown in FIG. 19, a processed part obtained by cutting off the stem 21 holding the ball part 20 of the part G is adhered to the surface on which one ball housing part 30 of the part F2 is formed, and is stable. It is also possible to make shaped bearing parts.

  FIG. 20 shows an example in which a composite long part in which a part J ′ obtained by cutting off the ball portion 20 of the part J is bonded to the side surface of the part N and the part E is connected in the longitudinal direction is assembled. Further, as shown in FIG. 21, a large connecting part capable of turning the rod-like member is created by fixing the processed part C ′ of the part C to both side surfaces in the center in the longitudinal direction of the part F1. Can do. It is preferable to process the parts (removal of the parts) so that these parts are bonded by surface bonding. Moreover, it is preferable to use a kind of instant adhesive suitable for adhesion of the resin type of parts for adhesion. By molding the runner frame shown in FIG. 2 and FIG. 3 with various colors of resin, it is possible to obtain an assembly in which the color scheme is devised when the parts are assembled in combination.

  Next, as an example, a manufacturing example of a robot assembled by using parts that are collectively formed in the runner frame 41 shown in FIGS. 22 and 23 will be described. The robot can manufacture the skeletal robot 40 as shown in FIG. 24 by connecting main parts of the 17 types of parts formed by the runner frame shown in FIG. This skeletal robot 40 has a leg part, an arm part, and a torso part, which are the basic skeleton system of the robot, and a ball part 20 with a stem and a ball part 20 are arranged in each part. Moreover, exterior parts of various shapes as variations can be freely attached.

  For example, as shown in FIG. 25, the left and right legs (legs) are thigh members 50L and 50R made of part O, crus members 51L and 51R made of part M, and foot member 52L made of part K. , 52R are connected to form a ball joint portion corresponding to the hip joint formed on the lower surface of the waist member 46 made of part J. Furthermore, by assembling the parts I, B, and A constituting the body members 45, 43, and 42, the left and right legs and the body can be assembled together, and the parts A located on both sides of the body member Corresponds to the shoulder, and by connecting parts E and G to the part, the arm part can be assembled. As a result, the skeleton robot 40 in which the connecting ball portions 20 are arranged on the legs, the waist, the trunk, the shoulders, and the arms is completed.

  FIG. 23 is a view showing a runner frame showing molding examples of various exterior parts that can be attached to the ball portion 20 formed in the skeleton robot 40. In order to attach the exterior parts, an attachment method in which the ball accommodating portion 30 formed on the inner surface side of the exterior plate is fitted into the ball portion 20 positioned in each portion of the skeleton robot, and conversely, the ball accommodating portion 30 formed in each portion of the skeleton robot. There is a method of attaching the ball portion 20 to the skeleton robot, or a method of inserting and connecting the protrusion 25 protruding from the skeleton robot side into a hole formed on the inner surface side of the exterior part.

  26 is completed by attaching the figure of the exterior parts and weapon parts shown in FIG. 23 to the skeleton robot 40 shown in FIG. 24 as armor members, and the skeleton robot 40 is transformed into an armored robot 70. It is the perspective view which showed the state which carried out. FIG. 27 is an assembled perspective view showing an attachment state of the exterior parts 62 to 68 and the head 67 attached to the armored robot 70. As shown in the figure, the plate-shaped exterior plate is mainly connected to the ball part 20 of each part of the skeleton robot, and a small exterior part is attached to the ball part 20 housing part of the skeleton robot. . Also, parts 53R and 53L as hands are attached to the lower ends of the exterior parts 62 and 68, and for example, the weapon parts A1 to A6 shown in FIG. 23 can be held by the armored robot 70 (FIG. 26). . As shown in FIG. 23, by providing various weapons and exterior parts at the tip of the arm, the variation of the robot further increases.

  In the above, the robot in which various exterior parts are attached to the outside of the skeletal robot 40 and assembled through ball joints has been described. In the third embodiment, the main body of basic parts such as parts A to O, for example, If it is a leg, it has a shape that incorporates a curve that changes its thickness or imagines muscles, and it mixes various special parts with the ball part 20 and the ball accommodating part 30 at both ends to create a more assembled shape. Here is an example of how to make a realistic. In the following production examples, on the basis of the assembly of the basic parts described above,

  Each figure of FIG. 28 is a production example of a warrior that emphasizes realism as a figure. A special part is incorporated into each part corresponding to the basic part to realize a shape that makes the skeleton and the armor image at the same time. For example, in FIG. 4A, a special plate 81 having a deformed flat plate which is usually used for a wing or the like is incorporated in the arm portion to give the feeling of a warrior wearing an armor (armor). The warrior 80 shown in FIG. 2B is a large shape by combining the basic parts of FIG. 2, the skeleton parts of FIG. 22 and special parts, and the movement at the joints such as legs and arms is greatly expressed. I was able to do it. Therefore, various action poses can be taken.

  Each drawing in FIG. 29 is a manufacturing example of a beetle 90 (the figure (a)) as a beetle and a stag beetle 91 (the figure (b)). The corner 91 of the beetle shown in FIG. 18A is a modification of a part of the weapon part 82 of the warrior shown in FIG. As described above, even if a special part has a specific shape, various complex and various shapes can be realized by changing the direction of some parts, separating the parts, or combining them. The stag 91 shown in FIG. 5B also has the same structure as the body and legs of the beetle 90, but uses the special plate 81 having the above-mentioned deformed flat plate shape as the head and a part 93 of the scissors. This special part 81 is also used for the lower leg of the warrior in FIG. Also, the special part 92 at the tip of the beetle's foot is the same part as the corner 84 of the warrior's head in FIG. In this way, the basic parts are not only commonly used in each production example, but also the special feature of this block toy is that it can be used in combination as various parts depending on the idea of the person who assembles the special parts. .

  Each drawing in FIG. 30 is a production example of a beast or the like using a special part of a foot that makes it easy for the assembled parts to become independent. FIG. 30A shows a production example of the panther 100, and FIG. 30B shows a production example of the tyrannosaurus 105 (dinosaur). By attaching a special part 96 having three claw-like parts on the main body part to a curved flat plate-like leg part 97, the shape of a so-called animal foot can be realistically expressed. Further, the special part 96 having the claw-like portion is also used for the wing-like decoration portion 85 of the warrior's helmet in FIG. In this way, it can be diverted as a practical part as a foot and a part as a decoration. In this way, since special parts have various shapes in particular, depending on the idea, they can be used in various applications and usage locations.

  Also, with this block toy, parts of various shapes molded in each color can be purchased for each runner frame, and models with various blocks with various ideas can be created with free ideas by combining shapes and colors. In addition, in order to produce a warrior robot or animal finished product of the predetermined shape, an assembly procedure diagram of each part is attached, the necessary number of parts are arranged and molded into a runner frame, or the parts are separated and packed in a bag. It can also be sold as a kit product. It is also possible to present a modeling model such as a complicated three-dimensional shape and play as a puzzle that assembles parts to complete the modeling model accurately.

It is the perspective view which showed an example of the robot assembled using each part shape | molded by the runner frame shown in FIG. 2, FIG. FIG. 2 is a plan view showing a planar shape of a runner frame formed from part A to part O. The top view which showed the runner frame shown in FIG. 2 from the back surface. The perspective view which showed the basic shape of the part A, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part B, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part C, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part D, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part E, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part F, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part G, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part H, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part I, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part J, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part K, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part L, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part N, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the basic shape of the part O, the component shape shape | molded by the runner, and the connection example. The perspective view which showed the example of an assembly of the composite parts made by uniting several parts. The perspective view which showed the example of an assembly of the composite parts made by uniting several parts. The perspective view which showed the example of an assembly of the composite parts made by uniting several parts. The perspective view which showed the example of an assembly of the composite parts made by uniting several parts. The figure which showed an example of the runner frame which shape | molded each part for assembling the frame | skeleton robot of Example 2. FIG. As Example 2, a runner frame showing exterior parts attached to a skeleton robot. The perspective view which showed the skeleton robot assembled by each part shown in FIG. The assembly perspective view which showed the assembly state of the skeleton robot of FIG. FIG. 24 is a perspective view showing the transformed robot to which the exterior part shown in FIG. 23 is attached. The perspective view which showed the state which attaches the exterior parts shown in FIG. 24 to a skeleton robot. The perspective sketch figure which showed the production example of the warrior produced as Example 3 by the combination of a basic part and a special part. The perspective sketch figure which showed the manufacture example of the beetle (Rhinoceros beetle, stag beetle) manufactured by the combination of a basic part and a special part as Example 3. FIG. The perspective sketch figure which showed the manufacture example of the beasts (coffin, dinosaur) which were manufactured as Example 3 by the combination of a basic part and a special part.

Explanation of symbols

1,41 Runner frame 4 Exterior part 10 Body block 20 Ball portion 21 Stem 25 Protrusion 30 Ball housing portion 31 Stem housing portion 40 Skeletal robot 70 Armored robot 80 Warrior 90 Beetle 91 Stag beetle 100 Panther 105 Tyrannosaurus

Claims (7)

  A main body block formed of a plurality of types having various shapes and having a ball portion constituting one of the ball joints at a predetermined position and a ball receiving portion capable of receiving and holding the ball of the ball portion; and By connecting with a ball housing part, a plurality of objects in a state of being held at least movably between the ball part and the ball housing part or being releasably locked and held can be connected to form a target object having a predetermined shape. A block toy characterized by creation.   The said ball | bowl part is a resin molded product integrally molded by the said main body block through the stem of predetermined length or the surface contact state from which a part of ball | bowl was cut off. Block toy.   The block toy according to claim 1, wherein the ball housing portion is a resin molded product in which a spherical housing portion for housing the ball portion and a stem housing portion for housing the stem are integrally formed.   The block toy according to claim 3, wherein the spherical housing portion has an inner diameter capable of housing the ball, and a depth from the opening is set deeper than a radius of the ball.   The stem accommodating portion has an inner diameter capable of accommodating the stem, the depth from the opening is set deeper than the radius of the stem, and the ball joint is releasable by accommodating the stem in the stem accommodating portion. The block toy according to claim 3, wherein the block toy is locked.   The main body block is finished in a three-dimensional shape imitating a part of a human body or an animal, and the ball part and the ball accommodating part are formed at both ends in the longitudinal direction, and the connecting part constitutes a joint part. The block toy according to claim 1.   The main body block in which the ball portion and the ball housing portion are formed is held in a runner frame as various shaped parts, and each of the parts is molded from a resin molded product of each color for each runner frame. The block toy according to claim 1.

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