CN108635882B

CN108635882B - Sliding toy construction set

Info

Publication number: CN108635882B
Application number: CN201810503489.2A
Authority: CN
Inventors: 汉斯拉瑞
Original assignee: Sparkling Sky International Ltd
Current assignee: Sparkling Sky International Ltd
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2020-10-23
Anticipated expiration: 2038-05-23
Also published as: CN108635882A

Abstract

The invention discloses a sliding toy construction set, comprising: a plurality of magnetic coupling devices, wherein each magnetic coupling device magnetically couples at least one adjacent magnetic coupling device to create a main frame; the sliding assembly comprises a sliding track assembly which is detachably built on the main frame body and a sliding device which can slide or roll or jump-roll along the sliding track assembly, the sliding track assembly is of a continuous uninterrupted structure and is provided with an inclined continuous sliding chute, or the sliding track assembly is of an interrupted discontinuous structure and is provided with at least two sections of inclined continuous sliding chutes, and an interval is formed between the two sections of sliding chutes.

Description

Sliding toy construction set

The technical field is as follows:

the invention relates to the technical field of toy products, in particular to a sliding toy structure component.

Background art:

with the development of science and technology, the society advances, and then the toy kind of children is also more and more, especially slip toy, and it is more and more liked by the consumer.

The sliding toy in the prior art generally comprises a base frame, a track arranged on the base frame and a lifting device arranged on the base frame and butted with two ends of the track, when the sliding toy is used, a ball body or other sliding devices are put down from the upper end of the track, the ball body can roll from the upper end of the track to the lower end of the track and then is lifted to the upper end of the track by the lifting device, and the action is repeated continuously, so that the ball body rolls on the track.

However, the base frame of the sliding toy in the prior art is of an integrated structure rather than a building block type stack structure, the appearance of the base frame cannot be changed, the interestingness is not enough, more fun of independent assembly for children cannot be provided, in addition, the ball body in the sliding toy is in the track in the rolling process, the rolling mode is single, and the greater fun cannot be provided for the children when the children play.

To solve the problems in the related art, the present inventors have proposed the following technical solutions.

The invention content is as follows:

it is an object of the present invention to overcome the deficiencies of the prior art and to provide a sliding toy construction set.

In order to solve the technical problems, the invention adopts the following technical scheme: the sliding toy construction set includes: a plurality of magnetic coupling devices, wherein each magnetic coupling device magnetically couples at least one adjacent magnetic coupling device to create a main frame; the sliding assembly comprises a sliding track assembly which is detachably built on the main frame body and a sliding device which can slide or roll or jump-roll along the sliding track assembly, the sliding track assembly is of a continuous uninterrupted structure and is provided with an inclined continuous sliding chute, or the sliding track assembly is of an interrupted discontinuous structure and is provided with at least two sections of inclined continuous sliding chutes, and an interval is formed between the two sections of sliding chutes.

Further, among the above-mentioned technical scheme, the slip track subassembly is including a plurality of straight section formula slide rail and the corner formula slide rail of putting up on the body frame body through a plurality of fastener, and the block butt joint between this straight section formula slide rail and the corner formula slide rail.

Furthermore, in the above technical solution, the sliding rail assembly includes an upper sliding rail constructed on the main frame body by a plurality of fasteners and a lower sliding rail butted with the upper sliding rail, the lower end of the upper sliding rail has a jump sliding rail, the upper end of the lower sliding rail has an inclined butt-joint sliding rail matched with the jump sliding rail, and a gap is formed between the jump sliding rail and the inclined butt-joint sliding rail.

Further, in the above technical solution, the upper-section sliding track includes a plurality of first straight-section sliding rails and first corner-type sliding rails that are spliced and built together by a first straight-section coupling joint or a first bending coupling joint, wherein the first straight-section sliding rail located at the uppermost end is connected to a receiver component; the first straight section type slide rail positioned at the lowermost end is connected with the jumping slide rail through a first bending and coupling joint.

Further, in the above technical solution, the first straight-section type slide rail, the first corner-type slide rail, and the end portion of the jump slide rail are formed with a first butt block and first elastic buckles located at two sides of the first butt block; and the end parts of the first straight section coupling joint and the first bending coupling joint are respectively provided with a first butt joint groove for inserting the first butt joint block and a first clamping block which is formed on the inner wall of the first butt joint groove and is matched with the first elastic eye-splice.

Further, in the above technical solution, the lower section of the sliding track includes a plurality of second straight section type sliding rails and second corner type sliding rails which are spliced and built together through a second straight section type coupling joint or a second bent coupling joint, wherein the second corner type sliding rail or the second straight section type sliding rail located at the uppermost end is connected to the inclined butt joint sliding rail through the second bent coupling joint; the second straight section type sliding rail at the lowest end is connected with a lower suspension pipe connector component.

Further, in the above technical solution, the second straight-section slide rail, the second corner slide rail, the inclined butt-joint slide rail, and the end of the down-tube connector part are formed with a second butt-joint block and second elastic buckles located at two sides of the second butt-joint block; and the end parts of the second straight section movable joint coupler and the second bent movable joint coupler are respectively provided with a second butt joint groove for inserting the second butt joint block and a second clamping block which is formed on the inner wall of the second butt joint groove and is matched with the second elastic eye-splice.

Further, in the above technical solution, the buckle member includes a main body portion, a first clip formed at an upper end of one side of the main body portion, and a second clip formed at a lower end of the other side of the main body portion, and a clip opening of the first clip faces upward and is used for clamping and positioning with the upper section sliding rail or the lower section sliding rail; the clamping opening of the second clamping buckle faces downwards and is used for clamping and positioning the sub-frame body.

Furthermore, in the above technical solution, the lifting device further comprises a lifting device for lifting the sliding device sliding to the end of the lower section of sliding rail to the upper end of the upper section of sliding rail, wherein the lifting device comprises a first chain wheel and a second chain wheel mounted at the upper and lower ends of the main frame body, a power mechanism for driving the first chain wheel to rotate, and a chain connected to the first chain wheel and the second chain wheel, a lifting member is mounted on the chain, and the sliding device is lifted by the lifting member; the lifting component comprises a fixed seat fixedly connected with the chain and a first arc-shaped supporting block and a second arc-shaped supporting block which are formed at the front end of the fixed seat and used for supporting the sliding device, and two wrapping clamping plates are formed at the rear end of the fixed seat and fixedly connected with the chain.

Further, in the above technical solution, the sliding device includes a sphere and a light emitting module installed inside the sphere; the light-emitting module comprises a control circuit board, a battery, a motion sensor and one or more LED light sources, wherein the control circuit board is arranged in the sphere, the motion sensor is arranged on the control circuit board, the LED light sources are arranged on the control circuit board, and the LED light sources are single-color LED lamps or multi-color LED lamps.

After adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects: the main frame body is of a building block type stack structure, consumers can independently build the main frame bodies with various specifications, sizes and shapes through a plurality of magnetic connecting devices according to actual requirements, the interestingness is high, more pleasure of independent assembly can be provided for children, and the main frame body has an intelligence benefiting effect and has strong market competitiveness. Furthermore, the sliding device of the invention not only can roll and slide in the upper section sliding track and the lower section sliding track, but also can do parabolic motion by separating from the upper section sliding track and the lower section sliding track, thereby enhancing the interest of the invention and further improving the market competitiveness of the invention. In addition, the sliding device can check whether the light-emitting module is in a moving state or not through the motion sensor in the rolling process, and when the sliding device is in the moving state, the sliding device can emit monochromatic light or colored light, so that the interestingness of the sliding device is further enhanced, and the sliding device has stronger market competitiveness.

Description of the drawings:

FIG. 1 is a front view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is a front view of the magnetic connector device of the present invention;

fig. 4 is a perspective view of the fastening member of the present invention;

FIG. 5 is a perspective view of the sliding device of the present invention;

FIG. 6 is a perspective view of the slide of the present invention from another perspective;

FIG. 7 is a perspective view of the first and second straight-section slide rails of the present invention;

FIG. 8 is a perspective view of first and second angled slide rails according to the present invention;

FIG. 9 is a perspective view of first and second straight section coupling joints according to the present invention;

FIG. 10 is a perspective view of a first construction of first and second break-joint couplings according to the invention;

FIG. 11 is a perspective view of a second construction of the first and second dog-ear couplings of the present invention;

FIG. 12 is a perspective view of a jump rail and an inclined docking rail of the present invention;

FIG. 13 is a perspective view of a down tube connector component of the present invention;

fig. 14 is a perspective view of a receiver member of the present invention.

Fig. 15 is an assembly view of the lifting member, chain, and slide of the present invention.

The specific implementation mode is as follows:

the invention is further illustrated below with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1 and 2, a sliding toy construction set is shown, comprising: a main frame body 100 built by a plurality of magnetic connecting devices 1, a sliding component 200 arranged on the main frame body 100 and a lifting device 6 matched with the sliding component 200.

Each of the plurality of magnetic coupling devices 1 magnetically couples at least one adjacent magnetic coupling device 1 to construct a sub-frame body 10, and the plurality of sub-frame bodies 10 construct the main frame body 100 by magnetic coupling; that is, the main frame body 100 of the present invention is a building block type stack structure, and consumers can independently build the main frame bodies 100 with various specifications, sizes and shapes through a plurality of magnetic connecting devices 1 according to actual requirements, and the present invention has high interest, can give more independent assembly fun to children, and also has intelligence-developing efficacy, so that the present invention has strong market competitiveness.

Referring to fig. 3, the magnetic connecting device 1 includes a square frame 11 and a cylindrical magnet 12 mounted on an outer edge of the square frame 11, wherein mounting positions are disposed between four sides of the square frame 11, and the cylindrical magnet 12 is mounted in the mounting positions, so that the four magnetic connecting devices 1 can be stably erected into a stable sub-frame 10 by means of magnetic attraction.

The sliding assembly 200 comprises a sliding track assembly 20 which is detachably built on the main frame body 100 and a sliding device 4 which can slide or roll or jump along the sliding track assembly 20, wherein the sliding track assembly 20 at least comprises the following two structures: the first method comprises the following steps: the sliding rail assembly 20 is a continuous structure having an inclined and continuous sliding slot, and specifically, the sliding rail assembly 20 includes a plurality of straight-section type sliding rails and corner type sliding rails which are built on the main frame 100 through a plurality of snap fasteners 5, and the straight-section type sliding rails and the corner type sliding rails are engaged and butted with each other and inclined with respect to the main frame 100, so that the sliding rail assembly 20 has an inclined and continuous sliding slot. And the second method comprises the following steps: referring again to fig. 1 and 2, the sliding track assembly 20 is an intermittent discontinuous structure having at least two inclined continuous sliding grooves with a gap therebetween. Specifically, the sliding rail assembly 20 includes an upper sliding rail 2 constructed on the main frame 100 by a plurality of fasteners 5 and a lower sliding rail 3 butted with the upper sliding rail 2, the lower end of the upper sliding rail 2 has a jump rail 21, the upper end of the lower sliding rail 3 has an inclined butt rail 31 matched with the jump rail 21, and a gap is formed between the jump rail 21 and the inclined butt rail 31, so that the sliding rail assembly 20 has two sections of inclined, continuous and uninterrupted sliding grooves, and a gap is formed between the two sections of sliding grooves. That is, after the sliding device 4 rolls down from the upper sliding track 2 to the jump rail 21, the sliding device 4 will leave the jump rail 21 to make a parabolic motion, and then fall into the inclined butt rail 31 to enter the lower sliding track 3, that is, the sliding device 4 of the present invention not only rolls and slides in the upper sliding track 2 and the lower sliding track 3, but also leaves the upper sliding track 2 and the lower sliding track 3 to make a parabolic motion, so as to enhance the interest of the present invention and further improve the market competitiveness of the present invention. This embodiment is a preferred embodiment, and the sliding rail assembly 20 adopts the second structure described above.

As shown in fig. 4, the upper sliding rail 2 and the lower sliding rail 3 are both mounted on the main frame 100 through a plurality of fasteners 5, and the assembly structure is simple, so that children can assemble the main frame by themselves. Specifically, the fastening member 5 includes a main body 51, a first clip 52 formed at an upper end of one side of the main body 51, and a second clip 53 formed at a lower end of the other side of the main body 51, and the first clip 52 has an upward opening for being clamped and positioned with the upper sliding rail 2 or the lower sliding rail 3; the second clip 53 has a downward opening for clamping and positioning with the subframe body 10.

Referring to fig. 5 and 6, the sliding device 4 includes a sphere 41 and a light module 42 installed inside the sphere 41; the light emitting module 42 includes a control circuit board 421 installed inside the sphere 41, a battery, a motion sensor 422 installed on the control circuit board 421, and one or more LED light sources installed on the control circuit board 421, where the LED light sources are single-color LED lamps or multi-color LED lamps. That is, in the sliding device 4 of the present invention, the light emitting module 42 can check whether the sliding device is in a moving state through the motion sensor 422 during the rolling process, and when the sliding device is in the moving state, the sliding device 4 will emit a monochromatic light or a color light, so as to further enhance the interest of the present invention, and make the present invention have stronger market competitiveness.

Referring again to fig. 1 and 2, the upper sliding track 2 includes a plurality of first straight sliding rails 22 and first angled sliding rails 23 connected together by a first straight coupling joint 24 or a first bending coupling joint 25, wherein the first straight sliding rail 22 at the uppermost end is connected to a receiver member 26, and the receiver member 26 is in butt joint with the upper end of the lifting device 6; the first straight slide rail 22 located at the lowermost end is connected to the jump slide rail 21 by a first kink joint coupling 25. As shown in fig. 7 to 14, a first butt block 201 and first elastic buckles 202 located at two sides of the first butt block 201 are formed at the end portions of the first straight slide rail 22, the first corner slide rail 23 and the jump slide rail 21; the first butt groove 203 for inserting the first butt block 201 and the first block 204 formed on the inner wall of the first butt groove 203 and adapted to the first elastic buckle 202 are formed at the end of the first straight-section coupling 24 and the first bending coupling 25.

Referring to fig. 1 and 2 again, the lower sliding track 3 includes a plurality of second straight-section sliding rails 32 and second corner sliding rails 33 spliced and built together by a second straight-section coupling joint 34 or a second bending coupling joint 35, wherein the second corner sliding rails 33 or the second straight-section sliding rails 32 located at the uppermost end are connected to the inclined butt-joint sliding rails 31 by the second bending coupling joint 35; the second straight section slide 32 at the lowermost end is connected to a down tube connector part 36, which down tube connector part 36 is in abutment with the lower end of the lifting device 6. Referring to fig. 7 to 14, a second butt-joint block 301 and second elastic buckles 302 located at two sides of the second butt-joint block 301 are formed at the end portions of the second straight-section slide rail 32, the second corner slide rail 33, the inclined butt-joint slide rail 31 and the down-tube connector component 36; the end portions of the second straight-section coupling joint 34 and the second bending coupling joint 35 are respectively formed with a second butt groove 303 for the second butt block 301 to insert into, and a second stopper 304 formed on the inner wall of the second butt groove 303 and adapted to the second elastic buckle 302.

The shape and the structure of the inclined butt joint slide rail 31 are the same as those of the jumping slide rail 21; the structure of the first straight-section type slide rail is the same as that of the second straight-section type slide rail; the structure of the first corner type slide rail is the same as that of the second corner type slide rail; the structure of the first straight section coupling joint is the same as the structure of the second straight section coupling joint; the first bending joint coupling has the same structure as the second bending joint coupling.

The first bending joint coupling 25 has two configurations, one of which is bent upwards as shown in fig. 10 and the other of which is bent downwards as shown in fig. 11.

Referring again to fig. 1 and 2, the lifting device 6 is shown installed in the main frame 100 and is used to lift the sliding device 4 sliding to the end of the lower sliding rail 3 to the upper end of the upper sliding rail 2. Specifically, the lifting device 6 includes a first sprocket 61 and a second sprocket 62 attached to the upper and lower ends of the main frame 100, a power mechanism 63 for driving the first sprocket 61 to rotate, and a chain 64 connected to the first sprocket 61 and the second sprocket 62, and a lifting member 65 is attached to the chain 64, and the sliding device 4 is lifted by the lifting member 65. As shown in fig. 15, the lifting member 65 includes a fixing base 651 for fixedly connecting with the chain 64, and first and second arc-shaped supporting

blocks

652 and 653 formed at the front end of the fixing base 651 for supporting the sliding device 4, two clamping plates 654 are formed at the rear end of the fixing base 651, and the clamping plates 654 are fixedly connected with the chain 64. The power mechanism 63 may be a motor or a hand-operated mechanism.

In summary, the main frame body 100 of the present invention is a building block type stack structure, and consumers can independently build the main frame bodies 100 of various specifications, sizes and shapes through the plurality of magnetic connecting devices 1 according to actual requirements, and the main frame body is very interesting, can give more fun of independent assembly to children, and has intelligence-improving efficacy, so that the present invention has very strong market competitiveness. Furthermore, the sliding device 4 of the present invention not only slides in the upper sliding rail 2 and the lower sliding rail 3 in a rolling manner, but also moves in a parabolic manner away from the upper sliding rail 2 and the lower sliding rail 3, thereby enhancing the interest of the present invention and further improving the market competitiveness of the present invention. In addition, the sliding device 4 of the present invention can check whether the light emitting module 42 is in the moving state through the motion sensor 422 during the rolling process, and when the sliding device 4 is in the moving state, the sliding device 4 emits monochromatic light or color light, so as to further enhance the interest of the present invention, and make the present invention have stronger market competitiveness.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims

1. Slip toy construction assembly, its characterized in that: it includes:

a plurality of magnetic coupling means (1), wherein each magnetic coupling means (1) magnetically couples at least one adjacent magnetic coupling means (1) to build up a main frame (100);

the sliding assembly (200) comprises a sliding track assembly (20) which is detachably built on the main frame body (100) and a sliding device (4) which can slide or roll or jump-roll along the sliding track assembly (20), wherein the sliding track assembly (20) is of a continuous uninterrupted structure and is provided with an inclined continuous sliding chute, or the sliding track assembly (20) is of an interrupted discontinuous structure and is provided with at least two sections of inclined continuous sliding chutes, and an interval is formed between the two sections of sliding chutes;

the lifting device (6) is used for lifting the sliding device (4) sliding to the tail end of the lower sliding track (3) to the upper end of the upper sliding track (2), the lifting device (6) comprises a first chain wheel (61) and a second chain wheel (62) which are arranged at the upper end and the lower end of the main frame body (100), a power mechanism (63) used for driving the first chain wheel (61) to rotate and a chain (64) connected to the first chain wheel (61) and the second chain wheel (62), a lifting part (65) is arranged on the chain (64), and the sliding device (4) is lifted through the lifting part (65);

the sliding device (4) comprises a sphere (41) and a light-emitting module (42) arranged in the sphere (41); the light-emitting module (42) comprises a control circuit board (421) arranged in the sphere (41), a battery, a motion sensor (422) arranged on the control circuit board (421) and one or more LED light sources arranged on the control circuit board (421), wherein the LED light sources are single-color LED lamps or multi-color LED lamps.

2. The sliding toy construction set of claim 1, wherein: the sliding rail assembly (20) comprises a plurality of straight section type sliding rails and corner type sliding rails which are built on the main frame body (100) through a plurality of fastener pieces (5), and the straight section type sliding rails and the corner type sliding rails are clamped and butted.

3. The sliding toy construction set of claim 1, wherein: slip track subassembly (20) including having built upper segment slip track (2) on body frame body (100) and with lower section slip track (3) of upper segment slip track (2) butt joint through a plurality of hasp spare (5), this upper segment slip track (2) lower extreme has a jump slide rail (21), this lower section slip track (3) upper end have with jump slide rail (21) complex slope butt joint slide rail (31), be formed with the interval between this jump slide rail (21) and the slope butt joint slide rail (31).

4. The sliding toy construction set of claim 3, wherein: the upper section sliding track (2) comprises a plurality of first straight section type sliding rails (22) and first corner type sliding rails (23) which are spliced and built together through first straight section type coupling joints (24) or first bending coupling joints (25), wherein the first straight section type sliding rail (22) positioned at the uppermost end is connected with a receiver component (26); the first straight section type slide rail (22) at the lowest end is connected with the jump slide rail (21) through a first bending and coupling joint (25).

5. The sliding toy construction set of claim 4, wherein: the end parts of the first straight section type slide rail (22), the first corner type slide rail (23) and the jump slide rail (21) are respectively provided with a first butt joint block (201) and first elastic buckles (202) positioned at two sides of the first butt joint block (201); the end parts of the first straight section coupling joint (24) and the first bending coupling joint (25) are respectively provided with a first butt groove (203) for inserting the first butt block (201) and a first clamping block (204) which is formed on the inner wall of the first butt groove (203) and is matched with the first elastic buckle (202).

6. The sliding toy construction set of claim 4, wherein: the lower section sliding track (3) comprises a plurality of second straight section type sliding rails (32) and second corner type sliding rails (33) which are spliced and built together through second straight section type coupling joints (34) or second bending coupling joints (35), wherein the second corner type sliding rails (33) or the second straight section type sliding rails (32) positioned at the uppermost end are connected with the inclined butt joint sliding rails (31) through the second bending coupling joints (35); the second straight section slide rail (32) at the lowermost end is connected to a lower suspension connector part (36).

7. The sliding toy construction set of claim 6, wherein: a second butt joint block (301) and second elastic buckles (302) positioned at two sides of the second butt joint block (301) are formed at the end parts of the second straight section type slide rail (32), the second corner type slide rail (33), the inclined butt joint slide rail (31) and the down-hanging pipe connector part (36); and a second butt joint groove (303) for inserting a second butt joint block (301) and a second clamping block (304) which is formed on the inner wall of the second butt joint groove (303) and is matched with the second elastic insert buckle (302) are formed at the end parts of the second straight section joint coupling (34) and the second bent joint coupling (35).

8. The sliding toy construction set of any one of claims 2 through 7, wherein: the buckle piece (5) comprises a main body part (51), a first clamp buckle (52) formed at the upper end of one side of the main body part (51) and a second clamp buckle (53) formed at the lower end of the other side of the main body part (51), wherein a clamp opening of the first clamp buckle (52) faces upwards and is used for clamping and positioning the upper section sliding track (2) or the lower section sliding track (3); the clamping opening of the second clamping buckle (53) faces downwards and is used for clamping and positioning the subframe body (10).

9. The sliding toy construction set of any one of claims 1 through 7, wherein: the lifting component (65) comprises a fixed seat (651) fixedly connected with the chain (64) and a first arc-shaped supporting block (652) and a second arc-shaped supporting block (653) which are formed at the front end of the fixed seat (651) and used for supporting the sliding device (4), two wrapping plates (654) are formed at the rear end of the fixed seat (651), and the wrapping plates (654) are fixedly connected with the chain (64).