CN109529375B - Combined building block toy - Google Patents

Abstract

The invention relates to the technical field of children toys. A combined building block toy comprises a rotary conveying mechanism, a stepped conveying mechanism, a first conveying track and a second conveying track. The feeding end of the first conveying track is connected with the discharging end of the discharging block, and the discharging end of the first conveying track is connected with the feeding rod; the feeding end of the second conveying track is connected with the discharging rod, and the discharging end of the second conveying track is connected with the feeding block. The balls are conveyed to the stepped conveying mechanism through the first conveying track, the stepped conveying mechanism enables the balls to climb up stairs and conveyed to the rotary conveying mechanism through the second conveying track, and the whole building block toy is combined to form a loop. The beneficial effects of the invention are as follows: the structure is simple, the splicing is easy, and the difficulty is suitable for children; the structure is novel, the interaction with children is realized, and the use interest and curiosity of the children are improved; after the assembly is completed, the toy is not only used for the toy for children, but also used for indoor decoration.

Description

Combined building block toy

Technical Field

The invention relates to the technical field of children toys, in particular to a combined building block toy.

Background

Along with the development of society, the continuous progress of science and technology, people's economic level improves, and people pay more and more attention to children's education, in order to help children's study growth, various early education articles are designed and developed, and the building blocks are as the common children's toys in current market, can effectively train children's hand-eye coordination ability to and to the discernment ability of colour, shape, letter, number etc.. Through different arrangement and combination of the building blocks, the imagination of the children can be brought into play, and the intelligence and creativity of the children can be further developed. The existing children building blocks on the market are too complex and inconvenient for children to splice, so that the children lose interest easily and are not easy to splice. Or in the use, children are one-way output to the building blocks, the building blocks are all static, information feedback can not be obtained from the building block toys, interaction with the children is lacking, and therefore the interest of the children to the building blocks can be reduced.

Disclosure of Invention

The purpose of the invention is that: aiming at the defects in the prior art, the utility model provides a children building block toy which can prevent children from losing interest, has simple structure and is suitable for children and has interaction with the children.

The invention is realized by adopting the following technical scheme:

a combined building block toy comprises a rotary conveying mechanism, a step conveying mechanism, a first conveying track and a second conveying track, wherein the rotary conveying mechanism, the step conveying mechanism, the first conveying track and the second conveying track are combined to form a loop;

the rotary conveying mechanism comprises a first bracket, a rotary disc, a first driving mechanism and a feeding block; the first support is L-shaped, the first driving mechanism is arranged on the first support, the first driving mechanism is connected with the rotary disk and can drive the rotary disk to rotate, the rotary disk is arranged on the front surface of the upper part of the first support, a plurality of feeding through holes for conveying balls are circumferentially arranged on the outer ring of the rotary disk, the front surface of an inner cavity of the feeding through hole is in a flaring shape towards the back surface, a fixing plate is arranged between the rotary disk and the first support, the fixing plate is fixedly arranged on the first support and is mutually attached to the back surface of the rotary disk to seal the feeding through hole, and the top of the fixing plate is provided with a discharging through hole which can be connected with the feeding through hole; the feeding block is arranged on the upper surface of the lower part of the first bracket, the upper part of the feeding block is provided with a first concave surface with a half bowl mouth, the lowest part of the first concave surface is connected with a feeding through hole at the lowest part of the rotating disc and can send balls into the feeding through hole, the top of the first bracket is connected with the discharging block, the discharging block is provided with a discharging inclined surface for sliding down the balls, and the feeding end of the discharging inclined surface is positioned above the discharging end;

the stepped conveying mechanism comprises a second bracket, a rotating shaft, a second driving mechanism, a plurality of cams, a movable ejector rod, a feeding rod, a discharging rod, a first baffle and a second baffle, wherein the rotating shaft is arranged on the second bracket, and the end part of the rotating shaft is connected with the second driving mechanism for enabling the rotating shaft to rotate; the cams are arranged on the rotating shaft and are divided into an upper cam and a lower cam, the upper cam is arranged on the rotating shaft in a downward eccentric mode, the lower cam is arranged on the rotating shaft in an upward eccentric mode, and the upper cam and the lower cam are arranged in a blank mode; the feeding rod is fixedly arranged at one end part of the second bracket top plate, the discharging rod is fixedly arranged at the other end part of the second bracket top plate, a push rod through hole is formed in the second bracket top plate and positioned between the feeding rod and the discharging rod, a plurality of movable push rods with the lengths sequentially increased from the feeding rod to the discharging rod are arranged on the push rod through hole, the movable push rods are positioned above the cams, the bottom surfaces of the movable push rods are matched with the cams, and the cams can drive the movable push rods to move up and down; the tops of the movable ejector rods, the feeding rods and the discharging rods are respectively provided with a connecting inclined plane, and the feeding ends of the connecting inclined planes are positioned above the discharging ends; the feeding rod is connected with the lowest part of the shortest movable ejector rod which moves up and down, the highest part of the former movable ejector rod which moves up and down is connected with the lowest part of the latter movable ejector rod which moves up and down, and the highest part of the longest movable ejector rod which moves up and down is connected with the discharging rod; the first baffle is fixedly arranged on one side wall of the feeding rod and the discharging rod, and the second baffle is fixedly arranged on the other side wall of the feeding rod and the discharging rod;

the feeding end of the first conveying rail is connected with the discharging end of the discharging block, and the discharging end of the first conveying rail is connected with the feeding rod; the feeding end of the second conveying track is connected with the discharging rod, and the discharging end of the second conveying track is connected with the feeding block. The structure is simple, the splicing is easy, and the difficulty is suitable for children; novel structure, increase children's interest and curiosity; the information feedback and interaction between the children are realized, and the use interest of the children is increased

Preferably, the first driving mechanism comprises a first rotating shaft, a second rotating shaft, a first guide wheel, a second guide wheel, a conveyor belt, a first main transmission gear, a first driven gear and a first motor; the first rotating shaft is arranged at the upper part of the first bracket, the front end of the first rotating shaft is connected with the rotating disc, the rear end of the first rotating shaft is connected with the first guide wheel, and the first guide wheel is arranged at the back surface of the upper part of the first bracket; the second rotating shaft is arranged at the lower part of the first bracket, the rear end of the second rotating shaft is connected with a second guide wheel, and the second guide wheel is arranged at the back of the lower part of the first bracket; the second guide wheel is in tensioning connection with the first guide wheel through a conveyor belt, a first driven gear is connected to the rear of the second guide wheel on a second rotating shaft, a first motor is arranged behind the second rotating shaft, the rotating shaft of the first motor is connected with a first main transmission gear, and the first main transmission gear is meshed with the first driven gear; the second driving mechanism comprises a second main transmission gear, a second driven gear and a second motor; the second motor is arranged on the right side of the rotating shaft, and the rotating shaft of the second motor is connected with a second main transmission gear; the second driven gear is connected to the right end of the rotating shaft, and the second driven gear and the second main transmission gear are meshed with each other. The driving mechanism can make the balls form an uninterrupted cycle.

Preferably, the first motor and the second motor may be energized by means of a wire socket or by means of a battery.

Preferably, the first conveying track comprises a first branch track, a second branch track, a branching block, a converging block, a first conveying block, a second conveying block, a third conveying block and a fourth conveying block; the first conveying block is provided with a first fan-shaped concave surface, one side of the first fan-shaped concave surface is connected with the discharging end of the discharging block, the other side of the first fan-shaped concave surface is connected with the rear side of the bifurcation block, and the first conveying block is positioned above the bifurcation block; the forked block is provided with a U-shaped first groove, a fixed rod is arranged in the first groove, a herringbone fixed block is fixedly arranged in the middle of the fixed rod, and the left side of the forked block is connected with the first branch line track; the first spur track comprises a first spur block, a second spur block, a third spur block and a fourth spur block; the first branch line block is provided with a second fan-shaped concave surface, one side of the second fan-shaped concave surface is connected with the left side of the bifurcation block, the other side of the second fan-shaped concave surface is connected with the rear side of the second branch line block, and the first branch line block is positioned above the second branch line block; the front side of the second branch line block is connected with the rear side of the third branch line block, the second branch line block is positioned above the third branch line block, and the second branch line block and the third branch line block are provided with U-shaped second grooves; the fourth branch line block is provided with a third fan-shaped concave surface, one side of the third fan-shaped concave surface is connected with the front side of the third branch line block, the other side of the third fan-shaped concave surface is connected with the left side of the converging block, and the fourth branch line block is positioned above the converging block; the second spur track comprises a fifth spur block, a sixth spur block, a seventh spur block and an eighth spur block; the fifth branch line block is provided with a fourth fan-shaped concave surface, one side of the fourth fan-shaped concave surface is connected with the right side of the bifurcation block, the other side of the fourth fan-shaped concave surface is connected with the rear side of the sixth branch line block, the fifth branch line block is positioned above the sixth branch line block, and the sixth branch line block is provided with a U-shaped third groove; the seventh branch line block is provided with a fifth fan-shaped concave surface, one side of the fifth fan-shaped concave surface is connected with the front side of the sixth branch line block, the other side of the fifth fan-shaped concave surface is connected with the eighth branch line block, and the seventh branch line block is positioned above the eighth branch line block; the eighth branch line block is provided with a sixth fan-shaped concave surface, one side of the sixth fan-shaped concave surface is connected with the seventh branch line block, the other side of the sixth fan-shaped concave surface is connected with the rear side of the converging block, and the eighth branch line block is positioned above the converging block; the second concave surface of bowl mouth type is provided with on the piece that merges, the bottom center of second concave surface is provided with the whereabouts through-hole, the bottom surface middle part that merges the piece links up with the top surface of second transport piece, the second transport piece is provided with the through-hole of U type, the opening direction of U type is forward, the bottom surface that the second was carried the piece links up with the top surface of third transport piece, be provided with the transport inclined plane on the third transport piece, the feed end that carries the inclined plane is higher than the discharge end, the discharge end that the third was carried the piece is provided with blanking through-hole, the terminal bottom surface that the third was carried the piece links up with the top surface of fourth transport piece, all be provided with the round mouth on the top surface and the left surface of fourth transport piece, and the round mouth of top surface and left surface communicates with each other, the left side of fourth transport piece links up with the feed end of feed lever. The first conveyor tracks may be freely combined.

Preferably, the second conveying track comprises a first fan-shaped concave block, a first linear conveying block, a second fan-shaped concave block, a third fan-shaped concave block and a second linear conveying block, wherein the first fan-shaped concave block, the second fan-shaped concave block and the third fan-shaped concave block are respectively provided with a seventh fan-shaped concave surface, and the first linear conveying block and the second linear conveying block are respectively provided with a U-shaped fourth groove; the right side of the first fan-shaped concave block is connected with the discharge end of the discharge rod, the rear side of the first fan-shaped concave block is connected with the front side of the first linear conveying block, the first fan-shaped concave block is positioned above the first linear conveying block, and a trapezoidal slide block for sliding down the balls is arranged at the front end part of the first linear conveying block; the rear side of the first linear conveying block is connected with the front side of the second fan-shaped concave block, the left side of the second fan-shaped concave block is connected with the right side of the third fan-shaped concave block, and the second fan-shaped concave block is positioned above the third fan-shaped concave block; the rear side of the third fan-shaped concave block is connected with the front side of the second linear conveying block, and the third fan-shaped concave block is positioned above the second linear conveying block; the rear side of the second linear conveying block is connected with the front side of the feeding block. The second conveyor tracks may be freely combined.

Preferably, the first concave surface on the feeding block is in a step shape for preventing the balls from rolling back and forth. Better conveying balls.

Preferably, the second concave surface on the converging block is stepped to prevent the balls from rolling back and forth. Better conveying balls.

Preferably, the rotating disc comprises a first circular plate, a second circular plate and a plurality of middle plates, wherein a plurality of first round holes are circumferentially arranged on the outer ring of the first circular plate, a plurality of second round holes are circumferentially arranged on the outer ring of the second circular plate, and the diameter of the first round holes is smaller than that of the second round holes; six first fixing holes for connecting the middle plate are circumferentially arranged on the outer ring of each first round hole on the first circular plate, six second fixing holes for connecting the middle plate are circumferentially arranged on the outer ring of each second round hole on the second circular plate, and the interval between adjacent fixing holes in the first fixing holes and the second fixing holes is smaller than the diameter of the ball; the two ends of the middle plate are provided with protruding blocks, the protruding blocks at the two ends are respectively and fixedly arranged on the first fixing hole and the second fixing hole, and the middle plate is positioned between the first circular plate and the second circular plate.

Preferably, a plurality of groups of support combination blocks are arranged below the first conveying track and the second conveying track. Can be freely combined and built to exercise and develop the creativity of children.

Preferably, the combined building block toy is formed by combining and splicing a plurality of splice plates which can be disassembled and spliced again. The imagination and handling ability of the child can be further exploited.

Compared with the prior art, the invention has the beneficial effects that:

(1) The structure is simple, and the splicing difficulty is suitable for children;

(2) The information feedback is provided for the children, the interaction is provided for the children, and the use interest of the children is increased;

(3) Novel structure, increase children's interest and curiosity;

(4) After the assembly, the toy can be used for not only children toys, but also indoor decorations for decoration.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an exploded view of the rotary conveyor mechanism.

Fig. 3 is an exploded view of the stepped conveyor mechanism.

Fig. 4 is an exploded view of the first conveyor track.

Fig. 5 is an exploded view of the second conveyor track.

Fig. 6 is an exploded view of the rotating disk.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, a combination block toy includes a rotary conveyor 1, a stepped conveyor 2, a first conveyor track 3, and a second conveyor track 4. The feeding end of the first conveying track 3 is connected with the discharging end of the discharging block 16, and the discharging end of the first conveying track 3 is connected with the feeding rod 26; the feed end of the second conveyor track 4 is engaged with the discharge rod 27 and the discharge end of the second conveyor track 4 is engaged with the feed block 14. The balls are rotated and lifted through the rotary conveying mechanism 1, conveyed to the stepped conveying mechanism 2 through the first conveying track 3, and conveyed to the rotary conveying mechanism 1 through the second conveying track 4 by the stepped conveying mechanism 2, so that the whole building block toy is combined to form a loop.

As shown in fig. 1, 2 and 6, the rotary transport mechanism 1 includes a first bracket 11, a rotary disk 12, a first driving mechanism 13 and a feed block 14; the first bracket 11 is L-shaped, the first driving mechanism 13 is arranged on the first bracket 11, and the first driving mechanism 13 comprises a first rotating shaft 131, a second rotating shaft 132, a first guide wheel 133, a second guide wheel 134, a conveyor belt 135, a first main transmission gear 136, a first driven gear 137 and a first motor 138; the first rotating shaft 131 is arranged at the upper part of the first bracket 11, the front end of the first rotating shaft 131 is connected with the rotating disc 12 and can drive the rotating disc 12 to rotate, the rotating disc 12 is arranged at the front surface of the upper part of the first bracket 11, the rotating disc 12 comprises a first circular plate 122, a second circular plate 123 and a plurality of middle plates 124, a plurality of first circular holes 125 are circumferentially arranged on the outer ring of the first circular plate 122, a plurality of second circular holes 126 are circumferentially arranged on the outer ring of the second circular plate 123, and the diameter of the first circular holes 125 is smaller than that of the second circular holes 126; six first fixing holes 127 for connecting the middle plate are circumferentially arranged on the outer ring of each first round hole 125 on the first circular plate 122, six second fixing holes 128 for connecting the middle plate are circumferentially arranged on the outer ring of each second round hole 126 on the second circular plate 123, and the interval between adjacent fixing holes in the first fixing holes 127 and the second fixing holes 128 is smaller than the diameter of the balls; the middle plate 124 is provided with protrusions at both ends, the protrusions at both ends are fixedly disposed on the first and second fixing holes 127 and 128, respectively, and the middle plate 124 is located between the first and second circular plates 122 and 123. The rear end of the first rotating shaft 131 is connected to a first guide wheel 133, and the first guide wheel 133 is disposed at the upper rear surface of the first bracket 11. The second rotating shaft 132 is arranged at the lower part of the first bracket 11, the rear end of the second rotating shaft 132 is connected with the second guide wheel 134, the second guide wheel 134 is arranged at the back of the lower part of the first bracket 11, and the second guide wheel 134 and the first guide wheel 133 are in tensioning connection through the conveying belt 135. The second rotating shaft 132 is positioned behind the second guide wheel 134 and is connected with a first driven gear 137, a first motor 138 is arranged behind the second rotating shaft 132, the rotating shaft of the first motor 138 is connected with a first main transmission gear 136, and the first main transmission gear 136 is meshed with the first driven gear 137. The outer ring of the rotary disk 12 is circumferentially provided with a plurality of feeding through holes 121 for conveying balls, the front surface of the inner cavity of the feeding through holes 121 is in a flaring shape, a fixed plate 15 is arranged between the rotary disk 12 and the first bracket 11, the fixed plate 15 is fixedly arranged on the first bracket 11 and is mutually attached to the back surface of the rotary disk 12 to seal the feeding through holes 121, and the top of the fixed plate 15 is provided with a discharging through hole 151 which can be connected with the feeding through holes 121; the feeding block 14 is arranged on the upper surface of the lower part of the first bracket 11, a first concave surface 141 of a half bowl mouth shape is arranged on the upper part of the feeding block 14, the first concave surface 141 is in a ladder shape for preventing balls from rolling back and forth, the lowest part of the first concave surface 141 is connected with a feeding through hole 121 at the lowest part of the rotating disc 12 and can send the balls into the feeding through hole 121, a discharging block 16 is connected on the top of the first bracket 11, the discharging block 16 is provided with a discharging inclined surface 161 for sliding down the balls, and the feeding end of the discharging inclined surface 161 is positioned above the discharging end.

The rotary conveying mechanism 1 can put one or more balls into the feeding block 14, the balls roll down along the steps of the first inclined plane 141 and roll down to the lowest position of the first inclined plane 141, the balls can enter the feeding through hole 121 on the rotary disk 12, the rotary disk 12 drives the first main transmission gear 136 through the first motor 138 in a battery inserting or mounting mode, the first main transmission gear 136 drives the first driven gear 137, the first driven gear 137 drives the second rotating shaft 132 and the second guide wheel 134 to rotate, the second guide wheel 134 drives the first guide wheel 133 through the conveying belt 135, the first guide wheel 133 drives the rotary disk 12 to rotate through the first rotating shaft 131, the rotary disk 12 rotates to rotate the feeding through hole 121 at the bottom to the top, and the balls roll down to the discharging block 16 from the discharging through hole 151 on the top of the fixed plate 15 and slide down from the discharging block 16.

The rotary conveying mechanism 1 solves the problem that the common building blocks have no movement process, and the simple combination construction can cause the children to lose interest relatively quickly. The toy has the advantages that through the simple structure suitable for children, the balls are combined with the building blocks, feedback information can be provided for the children, interaction is achieved between the children, the interest of the children in the toy can be enhanced, and the imagination and creativity development of the children are facilitated.

As shown in fig. 1 and 3, the stepped conveying mechanism 2 includes a second bracket 21, a rotation shaft 22, a second driving mechanism 23, a plurality of cams 24, a movable ejector rod 25, a feed rod 26, a discharge rod 27, a first shutter 28 and a second shutter 29, the rotation shaft 22 is provided on the second bracket 21, the end of the rotation shaft 22 is connected with the second driving mechanism 23 for rotating the rotation shaft 22, the second driving mechanism 23 includes a second main transmission gear 231, a second driven gear 232 and a second motor 233; the second motor 233 is disposed at the right side of the rotation shaft 22, and the rotation shaft of the second motor 233 is connected to the second main transmission gear 231; the second driven gear 232 is coupled to the right end of the rotation shaft 22, and the second driven gear 232 and the second main driving gear 231 are engaged with each other. The cams 24 are disposed on the rotation shaft 21, the cams 24 are divided into upper cams 241 and lower cams 242, the upper cams 241 are eccentrically disposed downwardly on the rotation shaft, the lower cams 242 are eccentrically disposed upwardly on the rotation shaft, and the upper cams 241 and the lower cams 242 are arranged in a spaced-apart relationship; the feeding rod 26 is fixedly arranged at one end part of the top plate of the second bracket 21, the discharging rod 27 is fixedly arranged at the other end part of the top plate of the second bracket 21, a push rod through hole 211 is arranged between the feeding rod 26 and the discharging rod 27 on the top plate of the second bracket 21, a plurality of movable push rods 25 with the lengths sequentially increased from the feeding rod 26 to the discharging rod 27 are arranged on the push rod through hole 211, the movable push rods 25 are positioned above the cams 24, the bottom surfaces of the movable push rods 25 are matched with the cams 24, and the cams 24 can drive the movable push rods 25 to move up and down; the tops of the movable ejector rods, the feeding rods 26 and the discharging rods 27 are respectively provided with a connection inclined plane 201, and the feeding end of the connection inclined plane 201 is positioned above the discharging end; the feeding rod 26 is connected with the lowest part of the shortest movable ejector rod 25 which moves up and down, the highest part of the former movable ejector rod 25 which moves up and down is connected with the lowest part of the latter movable ejector rod 25 which moves up and down, and the highest part of the longest movable ejector rod 25 which moves up and down is connected with the discharging rod 27; the first baffle 28 is fixedly disposed on one side wall of the feed bar 26 and the discharge bar 27, and the second baffle 29 is fixedly disposed on the other side wall of the feed bar 26 and the discharge bar 27.

The step conveying mechanism 2 can put balls on the feeding rod 26, roll into the connecting inclined plane 201 of the movable ejector rod 25 through the connecting inclined plane 201 of the feeding rod 26, the movable ejector rod 25 drives the second main transmission gear 231 to rotate through the second motor 233 in a battery inserting or installing mode, the second main transmission gear 231 rotates to drive the second driven gear 232, the second driven gear 232 drives the rotating shaft 22 to rotate, the rotating shaft 22 rotates to enable the cam 24 to rotate along with the second driven gear 232, the cam 24 drives the movable ejector rod 25 to move up and down regularly, the balls are lifted in a stair climbing type lifting mode and conveyed to the discharging rod 27, and the balls roll out along the direction of the connecting inclined plane 201 at the top of the discharging rod 27.

The stepped conveying mechanism 2 solves the problem that the common building blocks have no movement process, so that the whole toy has flexibility and interestingness. In cooperation with the rotary conveyor 2, a cycle can be formed which not only increases the interest of the child and the sense of achievement of the completion of the construction, but also serves as a decoration.

As shown in fig. 1 and 4, the first conveying rail 3 includes a first branch rail 31, a second branch rail 32, a branching block 33, a merging block 34, a first conveying block 35, a second conveying block 36, a third conveying block 37, and a fourth conveying block 38; the first conveying block 35 is provided with a first fan-shaped concave surface 351, one side of the first fan-shaped concave surface 351 is connected with the discharging end of the discharging block 16, the other side of the first fan-shaped concave surface 351 is connected with the rear side of the branching block 33, and the first conveying block 35 is positioned above the branching block 33; the forked block 33 is provided with a U-shaped first groove 331, a fixing rod 332 is arranged in the first groove 331, a herringbone fixing block 333 is fixedly arranged in the middle of the fixing rod 332, and the left side of the forked block 33 is connected with the first branch line track 31; the first spur track 31 includes a first spur block 311, a second spur block 312, a third spur block 313, and a fourth spur block 314; the first branch block 311 is provided with a second fan-shaped concave surface 3111, one side of the second fan-shaped concave surface 3111 is engaged with the left side of the bifurcated block 33, the other side of the second fan-shaped concave surface 3111 is engaged with the rear side of the second branch block 312, and the first branch block 311 is located above the second branch block 312; the front side of the second spur block 312 is connected with the rear side of the third spur block 313, the second spur block 312 is positioned above the third spur block 313, and the second spur block 312 and the third spur block 313 are provided with a U-shaped second groove 3121; the fourth branch block 314 is provided with a third fan-shaped concave surface 3141, one side of the third fan-shaped concave surface 3141 is connected with the front side of the third branch block 313, the other side of the third fan-shaped concave surface 3141 is connected with the left side of the converging block 34, and the fourth branch block 314 is positioned above the converging block 34; second spur track 32 includes a fifth spur block 321, a sixth spur block 322, a seventh spur block 323, and an eighth spur block 324; a fourth fan-shaped concave surface 3211 is arranged on the fifth branch line block 321, one side of the fourth fan-shaped concave surface 3211 is connected with the right side of the bifurcation block 33, the other side of the fourth fan-shaped concave surface 3211 is connected with the rear side of the sixth branch line block 322, the fifth branch line block 321 is positioned above the sixth branch line block 322, and the sixth branch line block 322 is provided with a U-shaped third groove 3221; the seventh branch line block 323 is provided with a fifth fan-shaped concave surface 3231, one side of the fifth fan-shaped concave surface 3231 is connected with the front side of the sixth branch line block 322, the other side of the fifth fan-shaped concave surface 3231 is connected with the eighth branch line block 324, and the seventh branch line block 323 is positioned above the eighth branch line block 324; the eighth branch line block 324 is provided with a sixth fan-shaped concave surface 3241, one side of the sixth fan-shaped concave surface 3241 is connected with the seventh branch line block 323, the other side of the sixth fan-shaped concave surface 3241 is connected with the rear side of the converging block 34, and the eighth branch line block 324 is positioned above the converging block 34; the second concave surface 341 of bowl mouth shape is set on the converging block 34, the bottom center of the second concave surface 341 is set with a falling through hole 342, the middle of the bottom surface of the converging block 34 is set with a U-shaped through hole 361, the opening direction of the U-shaped is forward, the bottom surface of the second conveying block 36 is set with the top surface of the third conveying block 37, the third conveying block 37 is set with a conveying inclined plane 371, the feeding end of the conveying inclined plane 371 is higher than the discharging end, the discharging end of the third conveying block 37 is set with a blanking through hole 372, the bottom surface of the tail end of the third conveying block 37 is set with the top surface of the fourth conveying block 38, the top surface and the left side surface of the fourth conveying block 38 are set with round mouth 381, the top surface is communicated with the round mouth 381 of the left side surface, the left side of the fourth conveying block 38 is set with the feeding end of the feeding rod 26.

As shown in fig. 1 and 5, the second conveying track 4 includes a first sector concave block 41, a first linear conveying block 42, a second sector concave block 43, a third sector concave block 44, and a second linear conveying block 45, each of the first sector concave block 41, the second sector concave block 42, and the third sector concave block 43 is provided with a seventh sector concave 411, and each of the first linear conveying block 42 and the second linear conveying block 45 is provided with a U-shaped fourth groove 425; the right side of the first fan-shaped concave block 41 is connected with the discharging end of the discharging rod 27, the rear side of the first fan-shaped concave block 41 is connected with the front side of the first linear conveying block 42, the first fan-shaped concave block 41 is positioned above the first linear conveying block 42, and a trapezoid slide block 421 for sliding down balls is arranged at the front end part of the first linear conveying block 42; the rear side of the first linear conveying block 42 is connected with the front side of the second fan-shaped concave block 43, the left side of the second fan-shaped concave block 43 is connected with the right side of the third fan-shaped concave block 44, and the second fan-shaped concave block 43 is positioned above the third fan-shaped concave block 44; the rear side of the third fan-shaped concave block 44 is connected with the front side of the second linear conveying block 45, and the third fan-shaped concave block 44 is positioned above the second linear conveying block 45; the rear side of the second linear transport block 45 engages the front side of the feed block 14.

The lower parts of the first conveying track 3 and the second conveying track 4 are also provided with a plurality of groups of supporting combination blocks 5, and a plurality of splice plates which can be disassembled and spliced again are combined and spliced to form the toy. The space and the capability of improving the assembly and collocation of hands of the children can be brought into play according to the imagination and creativity of the children, and meanwhile, the space and the capability of freely bringing into play by the children are also provided.

When in use, the total number of the balls is 12, and 6 balls are yellow, blue, red and green. The balls are put into the feeding block 14 and can be put in a place capable of being transferred, the balls roll into the feeding through holes 121, the balls are conveyed to the top through the first motor 138, slide into the discharging block 16 from the discharging through holes 151, are combined through the converging block 34 and conveyed onto the feeding rod 26 along the first conveying rail 3 after passing through the first branch rail 31 or the second branch rail 32, are conveyed onto the discharging rod 27 in a stair climbing mode through the movable ejector rod 25 through the second motor 233, and then return into the feeding block 14 through the second conveying rail 4 to form a round trip. By continuously operating the first motor 138 and the second motor 233, the balls can be rolled without interruption to form a loop.

In conclusion, the structure is simple, the splicing is easy, and the difficulty is suitable for children; novel structure, increase children's interest and curiosity; the information feedback is provided for the children, the interaction is provided for the children, and the use interest of the children is increased; after the assembly is completed, the toy is not only used for the toy for children, but also used for indoor decoration.

Claims (7)

1. The combined building block toy is characterized by comprising a rotary conveying mechanism (1), a stepped conveying mechanism (2), a first conveying track (3) and a second conveying track (4), wherein the rotary conveying mechanism (1), the stepped conveying mechanism (2), the first conveying track (3) and the second conveying track (4) are combined to form a loop;

the rotary conveying mechanism (1) comprises a first bracket (11), a rotary disc (12), a first driving mechanism (13) and a feeding block (14); the first support (11) is L-shaped, the first driving mechanism (13) is arranged on the first support (11), the first driving mechanism (13) is connected with the rotary disk (12) and can drive the rotary disk (12) to rotate, the rotary disk (12) is arranged on the front surface of the upper part of the first support (11), a plurality of feeding through holes (121) for conveying balls are circumferentially arranged on the outer ring of the rotary disk (12), the front surface of the inner cavity of the feeding through holes (121) is in a flaring shape, a fixing plate (15) is arranged between the rotary disk (12) and the first support (11), the fixing plate (15) is fixedly arranged on the first support (11) and is mutually attached to the back surface of the rotary disk (12) to seal the feeding through holes (121), and the top of the fixing plate (15) is provided with a discharging through hole (151) which can be connected with the feeding through holes (121); the feeding block (14) is arranged on the upper surface of the lower part of the first bracket (11), a first concave surface (141) of a half bowl mouth shape is arranged on the upper part of the feeding block (14), the lowest part of the first concave surface (141) is connected with a feeding through hole (121) at the lowest part of the rotating disc (12) and can feed balls into the feeding through hole (121), a discharging block (16) is connected to the upper part of the top of the first bracket (11), a discharging inclined surface (161) for sliding down the balls is arranged on the discharging block (16), and the feeding end of the discharging inclined surface (161) is positioned above the discharging end;

the stepped conveying mechanism (2) comprises a second bracket (21), a rotating shaft (22), a second driving mechanism (23), a plurality of cams (24), a movable ejector rod (25), a feeding rod (26), a discharging rod (27), a first baffle (28) and a second baffle (29), wherein the rotating shaft (22) is arranged on the second bracket (21), and the end part of the rotating shaft (22) is connected with the second driving mechanism (23) for enabling the rotating shaft (22) to rotate; the cams (24) are arranged on the rotating shaft (22), the cams (24) are divided into an upper cam (241) and a lower cam (242), the upper cam (241) is arranged on the rotating shaft in a downward eccentric mode, the lower cam (242) is arranged on the rotating shaft in an upward eccentric mode, and the upper cam (241) and the lower cam (242) are arranged in an inserting mode; the feeding rod (26) is fixedly arranged at one end part of the top plate of the second bracket (21), the discharging rod (27) is fixedly arranged at the other end part of the top plate of the second bracket (21), a push rod through hole (211) is formed in the top plate of the second bracket (21) and between the feeding rod (26) and the discharging rod (27), a plurality of movable push rods (25) which are sequentially increased in length from the feeding rod (26) to the discharging rod (27) are arranged on the push rod through hole (211), the movable push rods (25) are positioned above the cams (24), the bottom surfaces of the movable push rods (25) are matched with the cams (24), and the cams (24) can drive the movable push rods (25) to move up and down; the tops of the movable ejector rods, the feeding rods (26) and the discharging rods (27) are respectively provided with a connecting inclined plane (201), and the feeding end of the connecting inclined plane (201) is positioned above the discharging end; the feeding rod (26) is connected with the lowest part of the shortest movable ejector rod (25) which moves up and down, the highest part of the former movable ejector rod (25) which moves up and down is connected with the lowest part of the latter movable ejector rod (25) which moves up and down, and the highest part of the longest movable ejector rod (25) which moves up and down is connected with the discharging rod (27); the first baffle (28) is fixedly arranged on one side wall of the feeding rod (26) and the discharging rod (27), and the second baffle (29) is fixedly arranged on the other side wall of the feeding rod (26) and the discharging rod (27);

the feeding end of the first conveying track (3) is connected with the discharging end of the discharging block (16), and the discharging end of the first conveying track (3) is connected with the feeding rod (26); the feeding end of the second conveying track (4) is connected with a discharging rod (27), and the discharging end of the second conveying track (4) is connected with a feeding block (14);

the first conveying track (3) comprises a first branch track (31), a second branch track (32), a bifurcation block (33), a converging block (34), a first conveying block (35), a second conveying block (36), a third conveying block (37) and a fourth conveying block (38); the first conveying block (35) is provided with a first fan-shaped concave surface (351), one side of the first fan-shaped concave surface (351) is connected with the discharging end of the discharging block (16), the other side of the first fan-shaped concave surface (351) is connected with the rear side of the bifurcation block (33), and the first conveying block (35) is positioned above the bifurcation block (33); the forked block (33) is provided with a U-shaped first groove (331), a fixing rod (332) is arranged in the first groove (331), a herringbone fixing block (333) is fixedly arranged in the middle of the fixing rod (332), and the left side of the forked block (33) is connected with the first branch line track (31); the first branch line track (31) comprises a first branch line block (311), a second branch line block (312), a third branch line block (313) and a fourth branch line block (314); the first branch line block (311) is provided with a second fan-shaped concave surface (3111), one side of the second fan-shaped concave surface (3111) is connected with the left side of the bifurcation block (33), the other side of the second fan-shaped concave surface (3111) is connected with the rear side of the second branch line block (312), and the first branch line block (311) is positioned above the second branch line block (312); the front side of the second branch line block (312) is connected with the rear side of the third branch line block (313), the second branch line block (312) is positioned above the third branch line block (313), and the second branch line block (312) and the third branch line block (313) are provided with U-shaped second grooves (3121); a third fan-shaped concave surface (3141) is arranged on the fourth branch line block (314), one side of the third fan-shaped concave surface (3141) is connected with the front side of the third branch line block (313), the other side of the third fan-shaped concave surface (3141) is connected with the left side of the converging block (34), and the fourth branch line block (314) is positioned above the converging block (34); the second spur track (32) includes a fifth spur block (321), a sixth spur block (322), a seventh spur block (323), and an eighth spur block (324); a fourth fan-shaped concave surface (3211) is arranged on the fifth branch line block (321), one side of the fourth fan-shaped concave surface (3211) is connected with the right side of the bifurcation block (33), the other side of the fourth fan-shaped concave surface (3211) is connected with the rear side of the sixth branch line block (322), the fifth branch line block (321) is positioned above the sixth branch line block (322), and the sixth branch line block (322) is provided with a U-shaped third groove (3221); the seventh branch line block (323) is provided with a fifth fan-shaped concave surface (3231), one side of the fifth fan-shaped concave surface (3231) is connected with the front side of the sixth branch line block (322), the other side of the fifth fan-shaped concave surface (3231) is connected with the eighth branch line block (324), and the seventh branch line block (323) is positioned above the eighth branch line block (324); the eighth branch line block (324) is provided with a sixth fan-shaped concave surface (3241), one side of the sixth fan-shaped concave surface (3241) is connected with the seventh branch line block (323), the other side of the sixth fan-shaped concave surface (3241) is connected with the rear side of the converging block (34), and the eighth branch line block (324) is positioned above the converging block (34); the second concave surface (341) of a bowl mouth shape is arranged on the converging block (34), a falling through hole (342) is arranged at the center of the bottom of the second concave surface (341), the middle part of the bottom surface of the converging block (34) is connected with the top surface of the second conveying block (36), the second conveying block (36) is provided with a U-shaped through hole (361), the opening direction of the U-shape is forward, the bottom surface of the second conveying block (36) is connected with the top surface of the third conveying block (37), the third conveying block (37) is provided with a conveying inclined surface (371), the feeding end of the conveying inclined surface (371) is higher than the discharging end, the discharging end of the third conveying block (37) is provided with a blanking through hole (372), the bottom surface of the tail end of the third conveying block (37) is connected with the top surface of the fourth conveying block (38), round mouths (381) are arranged on the top surface and the left side surface of the fourth conveying block (38), the round mouths (381) are communicated with the top surface of the left side, and the left side of the fourth conveying block (38) is connected with the feeding end of the feeding rod (26);

the second conveying track (4) comprises a first fan-shaped concave block (41), a first linear conveying block (42), a second fan-shaped concave block (43), a third fan-shaped concave block (44) and a second linear conveying block (45), wherein the first fan-shaped concave block (41), the second fan-shaped concave block (43) and the third fan-shaped concave block (44) are respectively provided with a seventh fan-shaped concave surface (411), and the first linear conveying block (42) and the second linear conveying block (45) are respectively provided with a U-shaped fourth groove (425); the right side of the first fan-shaped concave block (41) is connected with the discharging end of the discharging rod (27), the rear side of the first fan-shaped concave block (41) is connected with the front side of the first linear conveying block (42), the first fan-shaped concave block (41) is positioned above the first linear conveying block (42), and a trapezoid slide block (421) for sliding balls is arranged at the front end of the first linear conveying block (42); the rear side of the first linear conveying block (42) is connected with the front side of the second sector-shaped concave block (43), the left side of the second sector-shaped concave block (43) is connected with the right side of the third sector-shaped concave block (44), and the second sector-shaped concave block (43) is positioned above the third sector-shaped concave block (44); the rear side of the third fan-shaped concave block (44) is connected with the front side of the second linear conveying block (45), and the third fan-shaped concave block (44) is positioned above the second linear conveying block (45); the rear side of the second linear conveying block (45) is connected with the front side of the feeding block (14);

the rotary disk (12) comprises a first circular plate (122), a second circular plate (123) and a plurality of middle plates (124), wherein a plurality of first round holes (125) are circumferentially formed in the outer ring of the first circular plate (122), a plurality of second round holes (126) are circumferentially formed in the outer ring of the second circular plate (123), and the diameter of the first round holes (125) is smaller than that of the second round holes (126); six first fixing holes (127) for connecting the middle plate (124) are circumferentially arranged on the outer ring of each first round hole (125) on the first circular plate (122), six second fixing holes (128) for connecting the middle plate (124) are circumferentially arranged on the outer ring of each second round hole (126) on the second circular plate (123), and the interval between adjacent fixing holes in the first fixing holes (127) and the second fixing holes (128) is smaller than the diameter of the ball; the two ends of the middle plate (124) are provided with protruding blocks, the protruding blocks at the two ends are respectively and fixedly arranged on the first fixing hole (127) and the second fixing hole (128), and the middle plate (124) is positioned between the first circular plate (122) and the second circular plate (123).

2. A combined building block toy according to claim 1, characterized in that the first driving mechanism (13) comprises a first rotating shaft (131), a second rotating shaft (132), a first guide wheel (133), a second guide wheel (134), a conveyor belt (135), a first main transmission gear (136), a first driven gear (137) and a first motor (138); the first rotating shaft (131) is arranged at the upper part of the first bracket (11), the front end of the first rotating shaft (131) is connected with the rotating disc (12), the rear end of the first rotating shaft (131) is connected with the first guide wheel (133), and the first guide wheel (133) is arranged at the back surface of the upper part of the first bracket (11); the second rotating shaft (132) is arranged at the lower part of the first bracket (11), the rear end of the second rotating shaft (132) is connected with a second guide wheel (134), and the second guide wheel (134) is arranged at the back of the lower part of the first bracket (11); the second guide wheel (134) is in tensioning connection with the first guide wheel (133) through a conveying belt (135), a first driven gear (137) is connected to the rear of the second guide wheel (134) on the second rotating shaft (132), a first motor (138) is arranged behind the second rotating shaft (132), a rotating shaft of the first motor (138) is connected with a first main transmission gear (136), and the first main transmission gear (136) is meshed with the first driven gear (137); the second driving mechanism (23) comprises a second main transmission gear (231), a second driven gear (232) and a second motor (233); the second motor (233) is arranged on the right side of the rotating shaft (22), and the rotating shaft of the second motor (233) is connected with a second main transmission gear (231); the second driven gear (232) is connected to the right end of the rotating shaft (22), and the second driven gear (232) and the second main transmission gear (231) are meshed with each other.

3. A modular block toy according to claim 2, wherein the first motor (138) and the second motor (233) are electrically connected by means of a wire socket or by means of a battery.

4. A modular building toy according to claim 1, wherein the first concave surface (141) of the feed block (14) is stepped to prevent rolling of the balls.

5. A modular block toy according to claim 1, wherein the second concave surface (341) of the junction block (34) is stepped to prevent the balls from rolling back and forth.

6. A combined building block toy according to claim 1, characterized in that a plurality of groups of support combined blocks (5) are arranged below the first conveying track (3) and the second conveying track (4).

7. A modular building block toy according to claim 1, characterized in that the modular building block toy is formed by a combination of several splice plates which can be detached and re-spliced.