WO2016026318A1 - 一种可自由组装的组合式玩具陀螺 - Google Patents
一种可自由组装的组合式玩具陀螺 Download PDFInfo
- Publication number
- WO2016026318A1 WO2016026318A1 PCT/CN2015/076506 CN2015076506W WO2016026318A1 WO 2016026318 A1 WO2016026318 A1 WO 2016026318A1 CN 2015076506 W CN2015076506 W CN 2015076506W WO 2016026318 A1 WO2016026318 A1 WO 2016026318A1
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- WIPO (PCT)
- Prior art keywords
- ring
- gyro
- shaft body
- card
- sleeve
- Prior art date
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H1/00—Tops
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H1/00—Tops
- A63H1/06—Tops with integral winding devices
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H1/00—Tops
- A63H1/18—Double tops; Multiple tops mounted in or on one another
Definitions
- the invention relates to the field of toys, in particular to a freely assembled modular toy top.
- the existing toy top is basically composed of a single gyro, which comprises a middle sleeve body, a screw cover, a gyro ring and a top point, and is connected with the screw cover through the gyro launcher to realize the gyro launching and rotating.
- the toy top is only rotated by a single layer of gyro during the playing process, so the attacking power is not strong enough when playing against the game, and the winning rate is difficult to be greatly improved.
- the object of the present invention is to provide a gyro assembly which is more aggressive and has a high winning rate by assembling the upper and lower gyro, and the user can select different assembly methods according to different occasions to realize different problems.
- a further object of the present invention is to provide a freely assembled modular toy top that is convenient for docking of upper and lower gyro, reliable butt joint structure, simple and quick to operate, and beautiful in appearance.
- the freely assembled modular toy top of the present invention comprises an upper gyro and a lower gyro assembled together, wherein the upper and lower gyros respectively comprise a central shaft body and a gyro ring coated on the central shaft body.
- the gyro ring of at least one of the upper and lower gyro is mounted on the central axis, and the upper and lower surfaces (also called the front and the back sides) can be rotated, so that the orientation of the gyro ring on the central axis can be realized.
- Combined gyro in a variety of assembly styles.
- the gyro ring in the upper and lower gyro can be adjusted on the upper and lower sides of the gyro ring, so that the orientation of each gyro ring on the corresponding central body can be adjusted.
- a combined gyro is available in four assembly styles. That is, a combined gyro is that both the upper and lower gyro rings are mounted on the front axle body with the front side facing up; the second and third combined gyro are upper and lower gyro rings which are both face up and back side The central shaft body is mounted upwards; the fourth combined gyro is that the upper and lower gyro rings are all mounted on the opposite side of the shaft body.
- the specific docking manner of the upper and lower gyros can be determined according to requirements, and can be reliably snapped together by a rotating snap-fit structure corresponding to the gyro rings disposed on the upper and lower gyros.
- the upper and lower gyros may be reliably connected by a plug structure or a rotating snap structure provided on the central shaft body. Together.
- the above-mentioned rotary snap-fit structure includes a snap-fit member rotatably mounted on the bottom of the upper gyro central shaft body, and the upper portion of the lower-side gyro of the lower gyro is correspondingly provided with a top gyro a concave cavity is inserted in a lower portion of the central shaft body, and a locking position that can be engaged with the engaging member is arranged in the concave cavity, and the lower middle middle body clamping member of the upper gyro is inserted into the concave cavity, and then the top of the top is rotated.
- the snap-on can achieve reliable clamping of the two axles.
- the upper gyro central shaft body is provided with a screw cap lower fitting device on the central shaft body for driving the card joint a rotating clutch transmission structure, the upper portion of the clutch transmission structure is engageable with the upper portion of the middle axle body, and is moved downward when being pressed by the screw cover to release the engagement with the central axle body and engage with the buckle member.
- the clutch transmission structure can be rotated by the screw cover to drive the snap member to rotate, and when the pressure under the screw cover disappears, the clutch transmission structure automatically moves up and reset. At this time, when the screw cap is turned out again, the card member will not be rotated.
- the gyro ring In order to make the gyro ring and the central shaft body still be reliable after being removed from the screw cap, it is not loose, so as to facilitate the installation and installation of the gyro ring during play, the gyro ring is provided with a card convex connected to the central shaft body.
- the locking structure, the gyro ring is reliably connected to the central shaft body through the card convex locking structure; or the above-mentioned central shaft body is provided with a card structure capable of achieving reliable screwing with the corresponding gyro ring.
- each of the gyro rings includes an outer attack ring and a matching device thereof for realizing the reliable connection between the outer attack ring and the above-mentioned central axle body.
- the spiral ring is provided with a convex locking structure capable of engaging with the central shaft body.
- the attack ring is made of metal, and the screw ring is made of plastic or plastic.
- the upper and lower spiral rings include a matching device with the attack ring through hole.
- the upper cover ring and the lower cover ring are different in shape and center of gravity of the upper cover ring and the lower cover ring, and the card convex locking structure comprises upper and lower cards respectively disposed on the inner wall of the upper cover ring and the lower cover ring. Convex, when the shaft body is set in the corresponding ring hole of the upper cover ring and the lower cover ring, the upper cover ring and the lower cover ring are engaged with the card structure of the corresponding middle shaft body through the upper and lower card protrusions A reliable connection to the center shaft is achieved.
- the two middle shaft bodies include a sleeve body and a snap ring rotatably mounted on the sleeve body, and the latching structure includes an axial direction disposed on the shaft
- the latching structure includes an axial direction disposed on the shaft
- On the outer wall of the casing a recessed card slot that can be slid into the latching locking structure, a card body integrally disposed on the snap ring and extending from the sleeve body, and the outer wall of each bushing body is correspondingly opened
- the guide pin of the card foot and the left and right rotation guides when the card convex locking structure of the screw ring slides into the card slot, the card ring can be rotated to rotate the card foot to the underside or above the card convex locking structure, so that the card convex lock
- the structure is reliably locked between the card foot and one end of the card slot to achieve a reliable connection between the gyro ring and the center shaft body.
- the present invention adopts a structure in which the upper and lower gyro are assembled to form a gyro assembly, and the gyro ring of at least one gyro can be mounted up and down in the middle shaft body, so that the present invention can pass both gyros in the process of use.
- the assembly is made to make it more aggressive when playing, the winning rate is higher, and the gyro's gyro ring can be mounted up and down on the central shaft body, that is, the top (front) of the gyro ring can be up.
- the invention has the advantages of simple structure and simple installation, and effectively solves the problems that the existing gyro has a single assembly mode, a single game mode, and insufficient aggressiveness.
- the invention also adopts a structure in which the upper and lower gyros are reliably snapped together through the rotary snap-fit structure disposed on the central shaft body, the two gyros are assembled conveniently and the connection structure is reliable, and the assembled assembly is combined.
- the gyro is beautiful in appearance.
- the present invention also adopts a rotary snap-fit structure which is provided on the central shaft body of the upper gyro and which is composed of a latching member and a transmission clutch structure for rotating the latching member, and can be coupled with the screw cap to ensure the two axle bodies.
- the reliable connection makes it easy to loosen due to collisions and the like during play, and is easy to operate and extremely convenient to use.
- the invention not only has simple assembly and various assembly methods, but also has stronger attacking power and high winning rate, and the user can select different assembling methods according to different occasions to achieve different ways of attack, which can meet the requirements of the consumers.
- FIG. 1 is a schematic structural view of an embodiment of an upper gyro according to the present invention.
- FIG. 2 is a schematic structural view of the gyro ring of FIG. 1 mounted on the center shaft body after being turned up and down;
- FIG. 3 is a schematic structural view of an embodiment of a lower gyro according to the present invention.
- FIG. 4 is a schematic structural view of the gyro ring of FIG. 3 mounted on the center shaft body after being turned up and down;
- FIG. 5 is a schematic structural view of the lower gyro of FIG. 3 assembled with the upper gyro of FIG. 1 after the screw cap is removed;
- Figure 6 is a cross-sectional structural view of Figure 5;
- Figure 7 is a cross-sectional view showing another structure of Figure 5;
- Figure 8 is a schematic view of the assembled structure of Figure 5;
- FIG. 9 is a schematic structural view of the lower gyro of FIG. 4 assembled with the upper gyro of FIG. 1 after the screw cap is removed;
- Figure 10 is a schematic view showing the assembled structure of Figure 9;
- Figure 11 is a schematic view showing the structure of the lower gyro of Figure 3 after the screw cap is removed and assembled with the upper gyro of Figure 2;
- Figure 12 is a schematic view showing the assembled structure of Figure 11;
- Figure 13 is a schematic view showing the structure of the lower gyro of Figure 4 after the screw cap is removed and assembled with the upper gyro of Figure 2;
- Figure 14 is a schematic view of the assembled structure of Figure 13.
- the freely assembled modular toy top comprises an upper top gyro 1 and a lower gyro 2 assembled together, in order to make the play mode and function of the present invention more diverse
- the upper and lower gyros 1 and 2 each include a central shaft body 11 and 21 and gyro rings 12 and 22 which are sleeved on the central shaft bodies 11 and 21, and the gyro ring of at least one of the upper and lower gyros 1 and 2 is mounted.
- the direction on the shaft body can be reversed on both the upper and lower sides (also called the front and back sides) (that is, the top of the gyro ring can be mounted on the middle shaft body upward, or the top surface of the gyro ring can be turned upwards.
- the orientation on the central axles 11, 21 can form a combined gyro of various assembled configurations.
- the attack is stronger and the winning rate is higher during play, and the gyro rings 12 and 22 of the gyro 1 and 2 can be turned up and down.
- the grounding body is mounted on the central shaft bodies 11, 21, so that the user can adjust the gyro rings 12 and 22 in different directions on the central shaft bodies 11, 21 according to different occasions to form gyros of different shapes or different centers of gravity.
- the change of the center of gravity of the gyro mainly affects: First, the design position of the connection structure of the gyro ring 12, 22 and the central shaft body 11 and 21 is affected, and the gyro ring 12 and 22 are rotated to make the connection with the central axis body. The position of the structure will change somewhat; secondly, the difference in the existence of the upper and lower surfaces of the gyro ring 12, 22 itself will also cause the center of gravity of the two sides to be different, so that the whole of the gyro and the original gyro after the direction of the gyro ring is turned The shape is different from the overall center of gravity.
- the invention has the advantages of simple structure and simple installation, and effectively solves the problems that the existing gyro has a single assembly mode and insufficient aggressiveness.
- the mounting directions of the gyro rings 12 and 22 and the center shafts 11 and 21 of the upper and lower gyros 1 and 2 can be adjusted up and down, and the respective gyro rings 12 and 22 are adjusted accordingly.
- the orientation on the central axles 11, 21 can form a combined gyro of four assembled configurations. That is, a combined gyro is that the upper and lower gyro rings 12, 22 are mounted on the front axle bodies 12, 22 face up, as shown in FIG.
- the second and third combination gyros are up and down
- the two gyro rings 12, 22 are mounted on the central shaft bodies 11, 21 with a front side facing up and a reverse side facing up, as shown in Figs. 9 and 13;
- the fourth combined gyro is the upper and lower gyro rings 12 22 is mounted on the center shafts 11, 21 with the reverse side facing up, as shown in FIG.
- the gyro rings 12 and 22 are not loosely connected, so as to facilitate the gyro ring to be installed during the play, the gyro rings 12 and 22
- the cam lock locking structures 125 and 225 are connected to the central shaft bodies 11 and 21, and the gyroscope rings 12 and 22 are reliably secured by the cam lock locking structures 125 and 225.
- Connected to the central shaft bodies 11, 21; or the above-mentioned central shaft bodies 11, 21 are provided with a card structure capable of achieving reliable screwing with the corresponding gyro rings 12, 22.
- the card convex locking structure may be disposed at a height centered position of the gyro rings 12, 22; or may be disposed at a non-centered height position.
- the center of gravity can be formed by the connection structure of the cam-locking structure and the central shaft body at a non-centered height position to form different centers of gravity. High and low gyro.
- the latch structure on the above-mentioned central shaft body may also be disposed at a height centered position or a non-centered height position of the center shaft body.
- Each of the above-mentioned gyro rings 12, 22 includes an annular attack ring 121 having a through hole in the middle. And a screw ring 221 and a through hole matching device of the attack ring 121 and 221 for reliably connecting the attack ring 121 and 221 and the central axle body 11 and 21, wherein the card convex locking structure 125, 225 is disposed on the On the spiral ring, the above-mentioned gyro rings 12, 22 are reliably connected to the central shaft bodies 11, 21 by the cam-locking structures 125, 225 on the spiral ring.
- the attack rings 121 and 221 are made of metal.
- the above spiral ring is made of a non-metallic material such as plastic or plastic. Because the middle of the attack ring 121, 221 is a circular hole, there is no structure such as an integral connecting hole and an auxiliary radial purlin connected to the connecting hole, so that the material and process flow of the attack ring are saved, and the gyro is also reserved. More development space, and also because the weight of the attack ring 121, 221 is mainly at the periphery of the center of gravity, so the rotation inertia is large.
- the card convex locking structure in the spiral ring is directly used to lock the locking member on the central shaft body, so the gyro ring 12, 22 and the central shaft body 11, 21 are removed when the screw cover 15 of the device is removed. It will not be loose, so assembly is more convenient.
- the gyro rings 12 and 22 can be rotated to form a gyro having different shapes and centers of gravity, and at the same time, the appearance of the gyro rings is more beautiful and the structure is more reliable.
- the upper and lower spiral rings include the attack rings 121 and 221.
- the upper cover ring 122, 222, the lower cover ring 123, 223 of the through hole matching device, and the shape or center of gravity of the upper cover ring 122, 222 and the lower cover ring 123, 223 are different, and the above-mentioned convex locking structure 125, 225
- the upper and lower card protrusions respectively disposed on the inner walls of the upper cover rings 122 and 222 and the lower cover rings 123 and 223 are included.
- a reliable connection with the central axle bodies 11, 21 is achieved by engaging with the latching structures provided on the respective central axle bodies 11, 21.
- the inner walls of the through holes of the attack rings 121 and 221 are integrally provided with the card edges 124 and 224, and the upper cover rings 122 and 222 and the lower cover rings 123 and 223 are correspondingly arranged.
- the positions of the card edges 124, 224 are correspondingly provided with notches, and the upper cover rings 122, 222 and the lower cover rings 123, 223 are reliably positioned on the attack ring 121 by the matching means of the notches and the card edges 124, 224. 221.
- the two central shaft bodies 11 and 21 include a sleeve body and a snap ring 13 and 23 rotatably mounted on the sleeve body.
- the latching structure includes an inner recessed slot 112, 212 axially disposed on the outer wall of the sleeve body and configured to slide into the upper and lower latches, and is integrally disposed on the snap ring 13 and 23
- the legs 131 and 231 of the sleeve body are respectively provided with guide grooves 113 and 223 for the card legs 131 and 231 to pass through and rotate left and right correspondingly on the outer wall of the sleeve body, when the screw ring is
- the card ring can be rotated to rotate the legs 131 and 231 to the lower or lower card protrusions, so that the upper and lower card protrusions are reliably locked to the legs 131, 231 and one end of the card slots 112, 212 are used to achieve reliable connection of the gyro rings 12, 22 with the center shafts 11, 21.
- the specific docking manners of the upper and lower gyros 1 and 2 can be determined according to requirements, and can be reliably connected by a rotating snap-fit structure disposed on the gyro rings 12 and 22 of the upper and lower gyros 1 and 2, respectively. together.
- the upper and lower gyros 1 and 2 pass through the plug structure or the rotary snap structure provided on the central shaft bodies 11, 21. And connected together reliably.
- the above-mentioned rotary snap-fit structure includes a latching member 14 rotatably mounted on the bottom of the upper body 11 of the upper gyro 1, and the upper portion of the lower axle body 21 of the lower gyro 2 is correspondingly provided.
- a recessed space for inserting the clip member 14 , and a latching portion 26 rotatably engageable with the latching member 14 is disposed in the recessed cavity, and the upper latching member 14 of the upper gyro middle shaft 11 is inserted into the lower mount After the screw 2 is recessed, the latching member 14 of the top gyro 1 is rotated to achieve reliable engagement of the two axle bodies 11, 21.
- the cavity of the lower gyro 2 can also be coupled with the lower part of the screw cap which is detachably mounted thereon, and it can be said that the cavity can be directly disposed in the lower gyro.
- a screw cap mounting position on the shaft body 21 is formed.
- the upper gyro central shaft body 11 is provided with a device and a central axis.
- the clutch transmission mechanism can be rotated by the screw cover 15 to drive the latching member 14 to rotate, and the screw cap 15 is pressed under the screw cap 15. When it disappears, the clutch transmission structure is automatically moved up and reset.
- the sleeve body of the upper gyro 1 includes a sleeved upper and lower sleeves 111, 110, and the latching member 14 includes a connecting seat rotatably disposed at a lower portion of the lower sleeve 110 and a sleeve that is located below the connecting seat and has a convex shape on the two outer walls.
- the snap ring 13 and the clutch transmission structure are located in the upper sleeve 111 above the latching member 14, and the clutch transmission structure can be moved with the upper sleeve 111 when moving up.
- the clutch transmission structure includes a spring 16 disposed above the latching member 14 and a clutch ring 17 that can be movably mounted on the upper portion of the spring 16 and the upper portion of the clutch ring 17 can be The upper sleeve 111 is engaged and disengaged when being depressed to release the engagement with the upper sleeve 111 and engage with the engaging member 14. At this time, the clutch 14 can be rotated by rotating the clutch ring 17, and When the downforce disappears, the clutch ring 17 automatically moves up and down under the action of the spring 16.
- a screw cap 15 detachably mounted on an upper portion of the middle shaft body 11; a protrusion 151 is disposed on two sidewalls of the bottom of the screw cap 15, and the clutch ring 17 is inside
- a latching structure 171 is provided, which can be locked with the protrusion 151 disposed on both sides of the lower portion of the screw cap 15 , and the screw cap 15 is inserted into the clutch ring 17 at the bottom thereof to cooperate with the latching structure 171 .
- the lower edge of the cap of the screw cap 15 is located at the upper end of the clutch ring 17.
- the inner wall of the upper bushing 111 and the upper outer wall of the clutch ring 17 are respectively provided with an outer protrusion and a latching groove 172 which can be engaged with the latching, and the bottom of the clutch ring 17 is engaged with the latching ring 17
- the upper ends 141 are respectively provided with an upper and lower convex tooth structure.
- the sleeve body of the lower gyro 2 includes the upper and lower sleeves 211 and 210 which are fitted with the sleeve, wherein The upper portion of the lower sleeve 210 is sleeved in the upper sleeve 211 and forms a cavity for engaging the engaging member 14 of the shaft body of the upper gyro 1 , and the latching portion 26 is disposed on the inner wall of the concave cavity.
- the snap ring 231 is rotatably disposed between the upper and lower sleeves 211, 210.
- the bottom of the lower sleeve 210 is connected with an elastic tip 24, the inner wall of the lower sleeve
- upper and lower shoulders 212, 213 are provided for engaging with the elastic tip 24, or an upper top member and a lower shoulder for engaging the elastic tip 24 are disposed in the lower sleeve 210.
- the top of the engaging member 14 of the upper gyro 1 is provided with a gyro.
- the tip is generally a metal tip.
- the upper and lower bushings 111, 110 of the upper gyro 1 and the upper and lower bushings 211, 210 of the lower gyro 2 are respectively locked by the locking screws.
- the invention not only has simple assembly and various assembly methods, but also has stronger attacking power and high winning rate, and the user can select different assembling methods according to different occasions to achieve different ways of attack, which can meet the requirements of the consumers.
Abstract
Description
Claims (17)
- 一种可自由组装的组合式玩具陀螺,包括组装在一起的上陀螺(1)和下陀螺(2),其特征在于所述上、下陀螺(1、2)均包括中轴体(11、21)及外套于中轴体(11、21)上的陀螺环(12、22),且所述上、下陀螺(1、2)中至少有一个陀螺的陀螺环安装在中轴体上的方向可上、下两面调转,故通过调转陀螺环(12、22)在中轴体(11、21)上的朝向可形成多种组装结构的组合式陀螺。
- 根据权利要求1所述的可自由组装的组合式玩具陀螺,其特征在于上述上、下陀螺(1、2)中的陀螺环(12、22)安装在中轴体(11、21)上方向均可上下两面调转,通过调转各陀螺环(12、22)在相应中轴体(11、21)上的朝向可形成四种组装结构的组合式陀螺。
- 根据权利要求1或2所述的可自由组装的组合式玩具陀螺,其特征在于上述上、下陀螺(1、2)通过设置于两陀螺环(12、22)上的旋转卡接结构而可靠连接在一起;或者上述上、下陀螺(1、2)通过设置于中轴体(11、21)上的插接结构或旋转卡接结构而可靠连接在一起。
- 根据权利要求3所述的可自由组装的组合式玩具陀螺,其特征在于上述旋转卡接结构包括可转动地设置于上述上陀螺(1)中轴体(11)底部的卡接件(14),上述下陀螺(2)的中轴体(21)上部相应地设有供所述卡接件(14)插入的凹腔,且所述凹腔内设有可与卡接件(14)旋转卡置的卡位(26),将上陀螺中轴体(11)下部卡接件(14)插入下陀螺(2)凹腔后再转动卡接件(14)即可实现两中轴体(11、21)的可靠卡接,上述下陀螺(2)的凹腔也能与可拆装地安装于其上的螺盖下部配合装置。
- 根据权利要求4所述的可自由组装的组合式玩具陀螺,其特征在于上述上陀螺中轴体(11)内设有可与装置于中轴体(11)上的螺盖(15)下部配合装置的用于带动所述卡接件(14)转动的离合传动结构,该离合传动结构的上部可与上述中轴体(11)的上部卡合,并在被螺盖(15)下压时下移而解除与中轴体(11)的卡合后与卡接件(14)上方实现啮合,此时就可通过螺盖(15)转动离合传动结构来带动卡接件(14)转动,而在螺盖(15)下压力消失时离合传动结构自动上移复位。
- 根据权利要求1或2或3或4或5所述的可自由组装的组合式玩具陀螺,其特征在上述陀螺环(12、22)上设有与中轴体(11、21)连接的卡凸锁定结构,上述陀螺环(12、22)通过卡凸锁定结构可靠连接于中轴体(11、21)上;或者上述中轴体(11、21)上设有可与相应陀螺环(12、22)实现可靠旋接的卡位结构。
- 根据权利要求5所述可自由组装的组合式玩具陀螺,其特征在于上述各陀螺环(12、22)包括中部为通孔的圆环状攻击环(121、221)及与该攻击环(121、221)通孔配合装置的用于使攻击环(121、221)与上述中轴体(11、21)实现可靠连接的螺环,且所述螺环上设有卡凸锁定结构(125、225),上述陀螺环(12、22)通过相应螺环上的卡凸锁定结构(125、225)与设置于中轴体(11、21)上的卡位结构的配合装置而可靠连接于中轴体(11、21)上。
- 根据权利要求7所述可自由组装的组合式玩具陀螺,其特征在于上述上、下螺环包括与攻击环(121、221)通孔配合装置的上盖环(122、222)、下盖环(123、223),且所述上盖环(122、222)、下盖环(123、223)的形状或重心设置不同,上述卡凸锁定结构(125、225)包括相应设置于所述上盖环(122、222)、下盖 环(123、223)内壁上的上、下卡凸,当中轴体(11、21)套装于相应的上盖环(122、222)、下盖环(123、223)的环孔中时,上述上盖环(122、222)、下盖环(123、223)通过其上、下卡凸与相应中轴体(11、21)上的卡位结构配合卡置而实现与中轴体(11、21)的可靠连接。
- 根据权利要求8所述可自由组装的组合式玩具陀螺,其特征在于上述攻击环(121、221))的通孔内壁上一体设有卡边(124、224),上述上盖环(122、222)、下盖环(123、223)上对应所述卡边(124、224)的位置相应地设有缺口,上述上盖环(122、222)、下盖环(123、223)通过其缺口与所述卡边(124、224)的配合装置而可靠定位于攻击环(121、221)上。
- 根据权利要求7所述可自由组装的组合式玩具陀螺,其特征在于上述两中轴体(11、21)包括轴套体及可转动地装置于所述轴套体上的卡环(13、23),上述卡位结构包括轴向设置于上述轴套体的外壁上并可供上述卡凸锁定结构(125、225)滑进的内凹卡槽(112、212)、一体设置于所述卡环(13、23)上并伸出所述轴套体的卡脚(131、231),所述各轴套体的外壁上相应地开有可供卡脚(131、231)穿出及左右转动的导槽(113、223),当上述螺环的卡凸锁定结构(125、225)滑进卡槽(112、212)内时,可转动卡环(13、23)使其卡脚(131、231)转至卡凸锁定结构(125、225)下面或上面,而使卡凸锁定结构(125、225)可靠锁定于卡脚和卡槽(112、212)的一端边之间以实现陀螺环(12、22)与中轴体(11、21)的可靠连接。
- 根据权利要求10所述可自由组装的组合式玩具陀螺,其特征在于上述上陀螺(1)的轴套体包括配合套接的上、下轴套(111、110),上述卡接件(14)包括可转动地装置于下轴套(110)下部的连接座及位于连接座下方且两外壁上带卡 凸的套柱,上述卡环(13)和离合传动结构位于卡接件(14)上方的上轴套(111)内,该离合传动结构上移时可与上轴套(111)卡接在一起,而下移解除与上轴套(111)卡接时又可与下轴套(110)上的卡接件(14)啮合。
- 根据权利要求11所述的可自由组装的组合式玩具陀螺,其特征在于上述离合传动结构包括装置于上述卡接件(14)上方的弹簧(16)和可上、下活动地装置于弹簧(16)上部的离合环(17),上述卡环(13)位于上轴套(111)和离合环(17)之间,该离合环(17)的上部可与上述上轴套(111)卡合,并在被下压时下移而解除与上轴套(111)的卡合后与卡接件(14)实现啮合,而在下压力消失时在弹簧(16)的作用下离合环(17)自动上移复位,且上述离合环(17)内相应地设有可与螺盖(15)下部两侧设置的突起(151)配合卡置锁定的卡位结构(171),该螺盖(15)在其底部插装于离合环(17)内与卡位结构(171)配合锁定时,其螺盖(15)的盖帽下沿位于离合环(17)上端。
- 根据权利要求12所述的可自由组装的组合式玩具陀螺,其特征在于上述上轴套(111)的内壁和上述离合环(17)的上部外壁上相应地设有可配合卡置的突起和卡槽(172),上述离合环(17)底部与卡接件(14)上端分别设有可啮合上、下凸齿结构(173、141)。
- 根据权利要求10所述的可自由组装的组合式玩具陀螺,其特征在于上述下陀螺(2)的轴套体包括配合套置的上、下轴套(211、210),其中所述下轴套(210)的上部内套于上轴套(211)内并形成上述可供上陀螺(1)中轴体的卡接件(14)配合套接的凹腔,上述卡位(26)设置于该凹腔内壁,上述卡环(231)可转动地装置所述上、下轴套(211、210)之间。
- 根据权利要求14所述的可自由组装的组合式玩具陀螺,其特征在于上述下陀螺的下轴套(210)底部连接有弹性陀尖(24),上述下轴套(210)的内壁相应设有可与弹性陀尖(24)配合装置的上、下限位台肩(214、213),或者是上述下轴套(210)内设有可与弹性陀尖(24)配合装置的上顶件和下限位台肩。
- 根据权利要求4所述的可自由组装的组合式玩具陀螺,其特征在于上述上陀螺(1)的卡接件(14)底部设有陀尖。
- 根据权利要求1所述的可自由组装的组合式玩具陀螺,其特征在于上述陀螺环(12、22)中至少有一个的上、下两面的结构形状或重心设置不同。
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JP2016543318A JP6134451B2 (ja) | 2014-08-16 | 2015-04-14 | 組合せ自在な合体コマ玩具 |
EP15766040.8A EP3012003B1 (en) | 2014-08-16 | 2015-04-14 | Combined toy gyroscope capable of being freely assembled |
BR112015024733-4A BR112015024733B1 (pt) | 2014-08-16 | 2015-04-14 | Topo de brinquedo combinado |
SG11201508380RA SG11201508380RA (en) | 2014-08-16 | 2015-04-14 | Combined toy top that can be freely assembled |
US14/784,453 US10029185B2 (en) | 2014-08-16 | 2015-04-14 | Combined toy top that can be freely assembled |
MX2015013669A MX2015013669A (es) | 2014-08-16 | 2015-04-14 | Trompo de juguete combinado que puede ser ensamblado libremente. |
ES15766040.8T ES2683747T3 (es) | 2014-08-16 | 2015-04-14 | Trompo de juguete combinado que puede ser ensamblado libremente |
AU2015230818A AU2015230818B2 (en) | 2014-08-16 | 2015-04-14 | Combined toy top that can be freely assembled |
CA2906252A CA2906252C (en) | 2014-08-16 | 2015-04-14 | Combined toy top that can be freely assembled |
RU2015140825A RU2647793C1 (ru) | 2014-08-16 | 2015-04-14 | Составной волчок с возможностью свободной сборки |
KR1020157026801A KR101770277B1 (ko) | 2014-08-16 | 2015-04-14 | 자유롭게 조립가능한 결합 완구 팽이 |
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EP (1) | EP3012003B1 (zh) |
JP (1) | JP6134451B2 (zh) |
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CN205796499U (zh) * | 2016-07-08 | 2016-12-14 | 广州市三宝玩具有限公司 | 一种陀螺加速装置 |
JP6232112B1 (ja) * | 2016-10-18 | 2017-11-15 | 株式会社タカラトミー | コマ玩具 |
JP6232113B1 (ja) * | 2016-10-18 | 2017-11-15 | 株式会社タカラトミー | コマ玩具、及びコマ玩具の部品の取付け方法 |
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JP6346976B1 (ja) * | 2017-05-23 | 2018-06-20 | 株式会社タカラトミー | コマ玩具 |
JP6377211B1 (ja) * | 2017-06-09 | 2018-08-22 | 株式会社タカラトミー | コマ玩具 |
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CN109799891B (zh) * | 2019-01-17 | 2022-06-24 | 河海大学常州校区 | 一种手机和笔记本电脑兼用的解压型散热支架 |
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BR112015024733A2 (zh) | 2020-03-03 |
US20160228778A1 (en) | 2016-08-11 |
SG11201508380RA (en) | 2016-03-30 |
MX2015013669A (es) | 2017-01-06 |
JP6134451B2 (ja) | 2017-05-24 |
EP3012003A1 (en) | 2016-04-27 |
JP2016530055A (ja) | 2016-09-29 |
EP3012003A4 (en) | 2017-02-08 |
CA2906252C (en) | 2017-09-12 |
AU2015230818B2 (en) | 2016-12-01 |
AU2015230818A1 (en) | 2016-03-03 |
CN104174168B (zh) | 2016-09-21 |
RU2647793C1 (ru) | 2018-03-19 |
CA2906252A1 (en) | 2016-02-16 |
US10029185B2 (en) | 2018-07-24 |
BR112015024733B1 (pt) | 2022-05-10 |
MY177488A (en) | 2020-09-16 |
CN104174168A (zh) | 2014-12-03 |
KR20160037833A (ko) | 2016-04-06 |
EP3012003B1 (en) | 2018-06-13 |
KR101770277B1 (ko) | 2017-08-22 |
ES2683747T3 (es) | 2018-09-27 |
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