CN219983905U - Toy frame and assembly thereof - Google Patents

Abstract

The utility model discloses a toy frame, which comprises an arc-shaped rod, wherein two ends of the arc-shaped rod are respectively connected with a clamping protrusion and a supporting rod, two ends of the arc-shaped rod are respectively grooved and form a yielding opening, the yielding opening separates the clamping protrusion positioned at one end of the arc-shaped rod from the supporting rod, and the two clamping protrusions are oppositely arranged and can elastically reset. The toy frame assembly of the device is matched and clamped with the clamping protrusions at the two ends of the arc-shaped rod through the two inner concave surfaces processed on the splicing ball, and the toy frames with various structures can realize different assembly assemblies.

Description

Toy frame and assembly thereof

Technical Field

The utility model relates to the technical field of improved design of assembled toys, in particular to a toy frame and an assembled assembly thereof.

Background

At present, the existing building blocks and other building toys on the market are assembled by using building blocks with corresponding shapes when assembled, so that the interestingness of the building block toy is greatly reduced, the playing dead plate is realized, the connection between the building block toys is only realized through mutual clamping of corresponding clamping blocks, the connection stability is poor, meanwhile, when the building toy with a right square is played, the right-angle side of the building toy is easy to stab the fine skin of a child, the child is injured in a game, and a certain danger is realized.

Among the prior art, the patent of publication number CN215025990U discloses a ten thousand and pieces together ball toy, relates to the assembly toy field, including a plurality of ten thousand pieces together the ball body, a plurality of mounting grooves have been seted up on the ten thousand pieces together the ball body, adjacent ten thousand pieces together ball body slidable mounting in the mounting groove, fixed mounting has the installation fixture block in the mounting groove. According to the utility model, through the arrangement of the ten thousand pieces of balls, a plurality of ten thousand pieces of balls can be freely connected, and the connection fixture blocks can be connected, so that the splicing mode is more various, the interestingness of the ten thousand pieces of balls is improved, meanwhile, the appearance is spherical, the problem that the square assembled toy hurts people at right angles is solved, the effect of protecting children is achieved, the ten thousand pieces of balls can be connected with the ten thousand pieces of balls, the ten thousand pieces of balls can be connected with the fixture plates, the ten thousand pieces of balls and the fixture plates can be connected in series through the connection shaft, and the like, so that the playing method of the ten thousand pieces of balls is greatly enriched, and the game interestingness of the ten thousand pieces of balls is improved.

In the technical scheme, the assembled toy mainly relates to mutual insertion and matching of a plurality of ten thousand pieces of assembled balls, and is assembled and combined with the aid of the clamping plates and the connecting shafts, but lacks of main frame support, and the frame type toy assembly can be realized only by using more ten thousand pieces of assembled balls.

The utility model provides a toy frame and an assembling assembly thereof for solving one of the problems.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides a toy frame and an assembly thereof.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a toy frame, includes the arc pole, the both ends of arc pole all be connected with screens arch and bracing piece, the both ends of arc pole are slotted respectively and are formed the mouth of yielding, should yielding the mouth and separate the screens arch and the bracing piece that are located arc pole one end, two the screens arch set up relatively and can elastically return.

Further, the two ends of the arc-shaped rod extend outwards respectively to form two clamping protrusions which are symmetrically arranged.

Further, the relief port extends to the end face of the support rod to form a slope as described above.

Further, the arc-shaped bar, the two clamping protrusions and the two support bars as described above form a splice assembly of the toy frame.

Further, the device comprises at least one splicing component, wherein the support rod of one splicing component is connected with a rod piece or a plate piece or an adjacent splicing component.

Further, the three splicing components are included, and the three splicing components form a triangular frame.

Further, the frame comprises four splicing components, and the four splicing components form a rectangular frame.

Further, the multi-layer frame comprises at least five splicing components, and a plurality of the splicing components form a polygonal frame.

The assembly of toy frame still includes the splice ball, the splice ball on process have two interior concave surfaces, the joint that the screens protruding cooperation joint in two interior concave surfaces and arc pole both ends.

Furthermore, the two inner concave surfaces of the spliced balls are symmetrically arranged, the spliced balls are also provided with central holes, slots and inserting sheets, and the slots and the inserting sheets of the two adjacent spliced balls can be mutually inserted and matched.

Compared with the prior art, the utility model has the beneficial effects that: the toy frame assembly of the device is matched and clamped with the clamping protrusions at the two ends of the arc-shaped rod through the two inner concave surfaces processed on the splicing ball, different assembly assemblies, particularly assembly of a large toy assembly, can be realized by toy frames with various structures, and the number of the splicing balls can be reduced by utilizing the toy frames with different structures.

Drawings

FIG. 1 is a schematic diagram of a toy frame of the present utility model;

FIG. 2 is a schematic diagram of a toy construction set according to the present utility model;

FIG. 3 is a perspective view of a splice ball of the present utility model;

FIG. 4 is a second perspective view of a splice ball of the present utility model;

FIG. 5 is a second schematic diagram of a toy frame according to the present utility model;

FIG. 6 is a schematic diagram III of a toy frame of the present utility model;

fig. 7 is a schematic diagram of a toy frame according to the present utility model.

In the figure: 1. a support rod; 2. a relief port; 3. a clamping protrusion; 4. an arc-shaped rod; 5. splicing balls; 51. an inner concave surface; 52. a sphere; 53. a central bore; 54. a slot; 55. and (5) inserting the sheet.

Detailed Description

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "fixed," "mounted," "connected," "disposed," and the like are to be construed broadly, e.g., when an element is referred to as being "fixed" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements.

The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The first embodiment of the utility model is a toy frame, which comprises an arc-shaped rod 4, wherein two ends of the arc-shaped rod 4 are respectively connected with a clamping protrusion 3 and a supporting rod 1, two ends of the arc-shaped rod 4 are respectively grooved and form a yielding opening 2, the yielding opening 2 separates the clamping protrusion 3 positioned at one end of the arc-shaped rod 4 from the supporting rod 1, and the two clamping protrusions 3 are oppositely arranged and can elastically reset. Further, two ends of the arc-shaped rod 4 respectively extend outwards to form two clamping protrusions 3 which are symmetrically arranged, wherein the yielding port 2 extends to the end face of the supporting rod 1 to form an inclined plane. Based on the structural design, the arc-shaped rod 4, the two clamping protrusions 3 and the two support rods 1 form a splicing assembly of the toy frame.

In a second embodiment, on the basis of the technical solution of the first embodiment, a toy frame includes at least one splicing assembly, where a support rod 1 of the splicing assembly is connected with a rod or a plate or an adjacent splicing assembly. Specifically, when only one splicing component is provided, the part ends of the supporting rods 1 are rounded to avoid injury of operators due to sharp angles, in addition, common rod pieces or plate pieces can be added, the rod pieces are conventional round rod pieces, the plate pieces include but are not limited to rectangular, round or polygonal, for the splicing component, one or two end parts of the supporting rods 1 can be connected with the rod pieces or the plate pieces, namely, a toy frame with the rod pieces or the plate pieces is obtained through injection molding and integral molding, and thus the shape of the toy frame includes but is not limited to various structures formed by intersecting two straight lines, and the effect of the plate pieces on the splicing component is equivalent to a base; when two splicing components exist, the two splicing components can be mutually combined into a crossed shape, namely, two adjacent supporting rods 1 are mutually connected, and the rod pieces or the plate pieces can be additionally added to form a complex shape; when three splicing components exist, the two adjacent support rods 1 can be mutually combined into a crossed shape, namely, two adjacent support rods 1 are mutually connected to form a non-closed frame structure, and the rod pieces or the plate pieces can be additionally added to form a complex shape; when there are four and up-number splice components, the two adjacent support rods 1 can be combined to form a cross shape, i.e. two adjacent support rods 1 are connected to form a non-closed frame structure, and the rod or plate can be additionally increased to form a complex shape, at this time, it should be noted that the injection mold has an increased mold opening cost due to the complex structure, and the situation of defective parts caused by incomplete filling may exist.

In a third embodiment, based on the technical solution of the first embodiment, as shown in fig. 1, a toy frame includes three splicing components, where the three splicing components form a triangle frame. Wherein, triangle-shaped frame is equilateral triangle wholly, and arc pole 4 is located the middle part on one of them limit of triangle-shaped frame, and bracing piece 1 symmetry setting at arc pole 4 both ends. A triangular toy frame as shown in fig. 5 is a conventional acute triangle in which the sides are not of equal length and the arcuate bars 4 are not centrally located on each side. A triangular toy frame as shown in fig. 6 is a conventional isosceles triangle in which the arcuate bar 4 is located at a position other than the middle of the two waists, but the splice assemblies of the two waists are symmetrical with each other, and the arcuate bar 4 is located at the middle of the base. In addition, the triangular frame may be right triangle, obtuse triangle, etc. and the above design is referred to, and details are omitted.

In a fourth embodiment, based on the technical solution of the first embodiment, as shown in fig. 7, a toy frame includes four splicing components, where the four splicing components form a rectangular frame. The rectangular frame is rectangular as a whole, the positions of the arc rods 4 on four sides of the rectangular frame are not the middle part, but the arc rods 4 of the two splicing assemblies oppositely arranged on the rectangular frame are mutually symmetrical. In addition, the rectangular frame may be square or diamond, and for the splicing components on each side of the quadrangle, the two support rods 1 at two ends of the arc rod 4 may be symmetrical or asymmetrical, which is only needed by referring to the above design and will not be described in detail.

An embodiment five, on the basis of the technical solution of the embodiment one, a toy frame includes at least five splicing components, and a plurality of the splicing components form a polygonal frame. The polygonal frame may be deformed in multiple ways such as a pentahedron or a hexa-equilateral shape, or may be shaped in a special way such as a pentagram, which is not described herein, and for the splicing components on each side of the polygonal frame, the two support rods 1 on two ends of the arc-shaped rod 4 may be symmetrically or asymmetrically arranged.

In the sixth embodiment, based on the technical solutions of the third, fourth and fifth embodiments, a toy frame may replace a splicing component on one or more sides of a closed toy frame with a rod, where the rod is a conventional round rod, and the whole toy frame may be obtained by integrally molding with an injection molding machine and an injection mold,

the seventh embodiment is a toy frame assembly, comprising a toy frame, wherein the toy frame is composed of at least one splicing component, the splicing component comprises an arc rod 4, two clamping protrusions 3 and two support rods 1, two ends of the arc rod 4 are respectively connected with the clamping protrusions 3 and the support rods 1, two ends of the arc rod 4 are respectively grooved and form a yielding opening 2, the yielding opening 2 separates the clamping protrusions 3 positioned at one end of the arc rod 4 from the support rods 1, the two clamping protrusions 3 are oppositely arranged and can elastically reset, and further, the two ends of the arc rod 4 respectively extend outwards to form two symmetrically arranged clamping protrusions 3, wherein the yielding opening 2 extends to the end face of the support rod 1 to form an inclined plane;

the splicing ball 5, the splicing ball 5 on processing have two interior concave surfaces 51, the convex 3 cooperation joint of screens at two interior concave surfaces 51 and arc pole 4 both ends, and further, the two interior concave surfaces 51 symmetry setting of splicing ball 5, the splicing ball 5 on still processing have centre bore 53 and slot 54 and inserted sheet 55, the slot 54 and the inserted sheet 55 of two adjacent splicing balls 5 can peg graft the cooperation each other.

Based on the above structural design, as shown in fig. 2, the toy frame includes three splice assemblies, and three of the splice assemblies form a triangle frame. Wherein, triangle-shaped frame is equilateral triangle wholly, and arc pole 4 is located the middle part on one of them limit of triangle-shaped frame, and bracing piece 1 symmetry at arc pole 4 both ends sets up, and the interior concave surface 51 at splice ball 5 both ends is blocked respectively on the screens protruding 3 at arc pole 4 both ends.

An eighth embodiment is a toy frame assembly, which is also applicable to other toy frame structures. An acute triangle frame is shown in fig. 5, wherein the lengths of the sides are different, and the position of the arc-shaped rod 4 on each side is not the middle part. An isosceles triangle is shown in fig. 6, in which the splice assemblies of the two waist sides are symmetrical to each other, and the arc-shaped bar 4 is at the middle position of the bottom side. In addition, the triangular frame may be right triangle, obtuse triangle, etc. and the above design is referred to, and details are omitted. As shown in fig. 7, a rectangular frame is rectangular overall, and the arc rods 4 of two splice assemblies oppositely arranged on the rectangular frame are symmetrical to each other. In addition, the rectangular frame may be square or diamond, and for the splicing components on each side of the quadrangle, the two support rods 1 at two ends of the arc rod 4 may be symmetrical or asymmetrical, which is only needed by referring to the above design and will not be described in detail. Finally, the frame can be a polygonal frame, such as a pentahedron or a hexa-equilateral shape and other multi-equilateral deformation, and can also be a special shape such as a five-pointed star.

For the structure of the spliced ball 5, the spliced ball comprises a ball body 52, a central hole 53 is formed in the ball body 52, a connecting shaft is slidably mounted in the central hole 53, the connecting shaft is mounted in the central hole 53, a plurality of ball bodies 52 can be connected in series, in addition, a clamping plate is sleeved on the connecting shaft in a sliding manner, specifically, a through hole is formed in the clamping plate, the connecting shaft is sleeved in the through hole in a sliding manner, the connecting shaft is mounted in the through hole and the central hole 53, and the series connection of the ball body 52 and the clamping plate is completed.

At least two inner concave surfaces 51 are formed on the sphere 52, the inner concave surfaces 51 are matched with the adjacent spheres 52, so that the splicing failure caused by mutual collision of the three spheres 52 is prevented, and importantly, the two inner concave surfaces 51 which are symmetrically arranged can be clamped on the arc-shaped protrusions on the toy frame to complete the assembly, and the use space of the spliced ball 5 is expanded. A plurality of mounting grooves are formed in the spheres 52, the adjacent spheres 52 are slidably mounted in the mounting grooves, mounting inserting pieces 55 are fixedly mounted in the mounting grooves, the two adjacent spheres 52 are attached to each other, the mounting inserting pieces 55 are mounted in the slots 54 on the adjacent spheres 52, and connection between the spheres 52 is completed. The sphere 52 is provided with a plurality of slots 54, the slots 54 are matched with the mounting inserting sheets 55 on the adjacent sphere 52, the slots 54 are used for mounting the mounting inserting sheets 55 or the clamping plates, the clamping plates are contacted with the adjacent sphere 52, and the clamping plates are mounted in the slots 54 in the sphere 52 to complete connection between the sphere 52 and the clamping plates.

Two adjacent spheres 52 are attached to each other, the mounting inserting pieces 55 are mounted in the slots 54 on the adjacent spheres 52, connection between the spheres 52 is completed, the clamping plate is mounted in the slots 54 in the spheres 52, connection between the spheres 52 and the clamping plate is completed, the central holes 53 on the spheres 52 correspond to the through holes on the clamping plate, the connecting shafts are mounted in the through holes and the central holes 53, connection between the spheres 52 and the clamping plate is completed, wherein the mounting grooves are used for bringing convenience for contact of the two spheres 52, the concave surfaces 51 are used for preventing splicing failure caused by mutual collision of the three spheres 52, and the two symmetrically arranged concave surfaces 51 can be clamped on arc-shaped protrusions on the toy frame to form a toy frame splicing assembly.

The toy frame and the spliced ball 5 used for combination in the device can be integrally formed through injection molding, the size of each part is selected and designed to be made of the prior art or materials, and the skilled person can directly purchase or order the toy frame from the market according to the required product model and specification.

In the foregoing description, only the preferred embodiment of the present utility model is described, but the common general knowledge of the specific structure and characteristics of the present utility model is not described in any detail. It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the present embodiments are to be considered in all respects as illustrative and not restrictive, and any equivalents and modifications thereof according to the technical scheme and the inventive concept thereof, which are within the scope of the present disclosure, are intended to be included in the scope of the present disclosure.

Claims (10)

1. The utility model provides a toy frame, its characterized in that includes arc pole (4), the both ends of arc pole (4) all be connected with screens arch (3) and bracing piece (1), the both ends of arc pole (4) are respectively fluted and are formed and give away mouth (2), should give away mouth (2) separate screens arch (3) and bracing piece (1) that are located arc pole (4) one end, two screens arch (3) set up relatively and can elastically return.

2. A toy frame according to claim 1, wherein two ends of the arc-shaped rod (4) extend outwards to form two symmetrically arranged detent projections (3).

3. A toy frame according to claim 2, characterized in that the relief opening (2) extends to the end face of the support bar (1) to form a bevel.

4. A toy frame according to claim 3, characterized in that the arc-shaped bar (4), the two detent projections (3) and the two support bars (1) form a splice assembly of the toy frame.

5. A toy frame according to claim 4, comprising at least one splice assembly, wherein the support bar (1) of one of said splice assemblies connects a bar or plate or an adjacent splice assembly.

6. A toy frame according to claim 4, comprising three splice assemblies, three of said splice assemblies forming a triangular frame.

7. A toy frame according to claim 4, comprising four splice assemblies, four of said splice assemblies forming a rectangular frame.

8. A toy frame according to claim 4, comprising at least five splice assemblies, a plurality of said splice assemblies forming a polygonal frame.

9. A toy frame assembly according to any one of claims 1 to 8, further comprising a splicing ball (5), wherein two concave surfaces (51) are formed on the splicing ball (5), and the two concave surfaces (51) are matched and clamped with the clamping protrusions (3) at two ends of the arc-shaped rod (4).

10. The assembly of a toy frame according to claim 9, wherein the two concave surfaces (51) of the splicing ball (5) are symmetrically arranged, the splicing ball (5) is further provided with a central hole (53), a slot (54) and an insert (55), and the slots (54) and the insert (55) of two adjacent splicing balls (5) can be mutually inserted and matched.