阅读说明：本技术 一种可连续爆破的气球鞭炮 (Balloon firecracker capable of continuously blasting ) 是由 黄能作 黄郅翔 于 2020-06-30 设计创作，主要内容包括：本发明公开了一种可连续爆破的气球鞭炮,包括若干个相互串接起来的气球爆破组件,一个气球爆破组件的级联卡头插入并锁定在另外一个气球爆破组件的级联卡座内,第一个气球爆破组件的级联卡座与触发堵头互连,所述气球爆破组件,包括外壳、基座、级联联动杆、联动杆弹簧、驱动件、驱动弹簧、顶针件和顶针件弹簧；本发明实现了顶针扎破充满气体的气球后,又立即将顶针快速缩回外壳内腔,高效又安全,还巧妙融合和使用了经典的多米诺效应原理,在触发第一个气球爆破组件后,引起串接在其后面的若干个气球爆破组件一个接一个的连续触发,爆破了各自绑定的气球。本发明装置结构简单、成本低廉且环保,是传统鞭炮的替代用品和很有趣味性的玩具。(The invention discloses a balloon firecracker capable of continuously blasting, which comprises a plurality of balloon blasting components connected in series, wherein a cascade chuck of one balloon blasting component is inserted into and locked in a cascade chuck of the other balloon blasting component, the cascade chuck of the first balloon blasting component is connected with a triggering plug, and the balloon blasting components comprise a shell, a base, a cascade linkage rod, a linkage rod spring, a driving piece, a driving spring, a thimble piece and a thimble piece spring; the invention realizes that the thimble can be quickly retracted into the inner cavity of the shell after the gas-filled balloon is punctured by the thimble, is efficient and safe, skillfully integrates and uses the classic domino effect principle, and causes the continuous triggering of a plurality of balloon blasting components connected behind the first balloon blasting component one by one after triggering the first balloon blasting component, thus blasting the bound balloons. The device has simple structure, low cost and environmental protection, and is a substitute for the traditional firecrackers and a toy with interest.)

1. The utility model provides a balloon firecrackers that can explode in succession, includes the balloon blasting subassembly that a plurality of concatenated each other, and the cascade dop of a balloon blasting subassembly inserts and locks in the cascade cassette of another balloon blasting subassembly, and the cascade cassette of first balloon blasting subassembly and trigger end cap interconnect, balloon blasting subassembly, its characterized in that: the device comprises a shell, a base, a cascade linkage rod, a linkage rod spring, a driving piece, a driving spring, a thimble seat and a thimble seat spring, wherein the shell is hollow, the bottom of the shell is open, a thimble through hole is formed in the top of the shell, a hollow reset column is arranged on the inner side of the top of the shell, a hollow positioning column is arranged on the upper portion of the base, the inner diameter and the outer diameter of the positioning column are the same, the bottom of the shell is connected with the upper portion of the base, the reset column is coaxially connected with the positioning column in the cavity of the shell, a thimble is arranged on the thimble seat, a needle point of the thimble penetrates through the thimble seat spring and is inserted into the thimble through hole, one end of the thimble seat spring is connected with the thimble seat, the other end of the thimble seat is connected with the inner side of the top of the shell, the thimble seat and the thimble seat spring are arranged in the cavity of the reset column and, one end of the cascade linkage rod penetrates through a linkage rod hole in the base and the locking hole is connected with the linkage rod spring, and the other end of the cascade linkage rod extends out of the hollow part of the cascade clamping seat.

2. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the thimble through hole is positioned in the middle of the intersection part of the reset column and the top of the shell, the other end of the reset column is provided with a reset curved surface, the top of the shell and two sides of the thimble through hole are respectively provided with a positioning hole, the inner wall of the shell is provided with an open positioning sliding groove, and the open end is in the same direction as the open end of the shell.

3. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the clamp is characterized in that a cascading clamp is arranged on one side of the base, a cascading clamp seat is arranged on the other opposite side of the base, the cascading clamp is cylindrical hollow, a cascading clamp hole is formed in the center of the cascading clamp, cascading clamp pins are arranged on two outer sides of the cylindrical hollow, two open grooves are formed in two sides of the end of the cascading clamp seat penetrating through the pipe wall respectively, cascading clamp pin positioning holes are formed in the tail ends of the grooves, an open setting column sliding groove is formed in the upper end of a setting column arranged on the upper portion of the base, and a setting curved surface is arranged at the bottom of the setting.

4. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the position column and the cascading chuck and the position column and the cascading cassette on the base are respectively provided with a through hole which is a driving hole and a locking hole, the driving hole is communicated with the cascading chuck hole, the locking hole is communicated with the linkage rod hole, and the linkage rod hole is arranged in the base, is communicated with the hollow part of the cascading cassette and penetrates through the locking hole.

5. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the driving piece, inside hollow lateral wall are equipped with open-ended thimble seat spout, and the open end is located the driving piece upper end, driving piece upper portion becomes the convex shoulder form driving piece upper portion with the crossing position fluting of thimble seat spout open end, the outside on driving piece upper portion is equipped with the location sliding block, by the location sliding block spacing the driving piece is in slide from top to bottom in the location sliding tray.

6. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the outer side of the lower end of the thimble seat is provided with a thimble seat swing rod, the lower part of the thimble seat swing rod is in a convex shoulder shape, the thimble seat swing rod is limited in a closed cavity formed by the reset curved surface, the set curved surface and the set column chute to slide up and down or swing around the axis, and the thimble seat is driven by the thimble seat swing rod to slide up and down or rotate around the axis in the cavities of the reset column and the set column.

7. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the top outside of shell establishes balloon and holds in the palm to tie, and the shape is similar to the bowl form, and the bowl end is the top of shell, a plurality of open slot is opened to the bowl mouth limit.

8. A continuously explodable balloon firecracker as claimed in claim 1, wherein: the bottom of the base is provided with a hook, a through hole which is arranged in the middle of the base and penetrates through the upper part and the lower part of the base is an air port, and the air port is connected with the cavity of the reset column and is also connected with the linkage rod hole.

Technical Field

The invention belongs to the technical field of imitation firecrackers, can also be applied to the field of toys, and particularly relates to a balloon firecracker capable of being continuously exploded.

Background

In spring festival and wedding occasion, people not only produce firecracker explosion sound when setting off traditional firecrackers, but also produce red firecracker paper scraps on the ground at the most happy occasion, the existing electronic firecrackers lack the atmosphere in the aspect, and the electronic firecrackers produce higher voltage when in use, and power cords of some products generate heat and soften exposed dangerous parts in actual use, even start burning, and cause electric shock and even fire accidents.

Therefore, the invention and the product use the explosion of the balloon to simulate the explosion sound of the traditional firecrackers and the red falling of the full ground to achieve the effect, but the method for exploding the balloon is complicated and inconvenient to use, and once the traditional firecrackers are ignited, a string of firecrackers can continuously explode, so that the firecrackers are very dynamic and the atmosphere is hot.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides a balloon firecracker capable of continuously blasting, which is characterized in that balloons filled with gas and connected in series are blasted one by skillfully applying domino effect, the blasting process and the blasting sonotrode are similar to the blasting process and the blasting sonotrode of the traditional firecracker, and the balloon firecracker has the characteristics of simplicity, easiness in use, environmental protection, energy conservation, safety and reliability.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a balloon firecrackers that can explode in succession, includes the balloon blasting subassembly that a plurality of concatenated each other, and the cascade dop of a balloon blasting subassembly inserts and locks in the cascade cassette of another balloon blasting subassembly, and the cascade cassette of first balloon blasting subassembly and trigger end cap interconnect, balloon blasting subassembly, its characterized in that: the device comprises a shell, a base, a cascade linkage rod, a linkage rod spring, a driving piece, a driving spring, a thimble seat and a thimble seat spring, wherein the shell is hollow, the bottom of the shell is open, a thimble through hole is formed in the top of the shell, a hollow reset column is arranged on the inner side of the top of the shell, a hollow positioning column is arranged on the upper portion of the base, the inner diameter and the outer diameter of the positioning column are the same, the bottom of the shell is connected with the upper portion of the base, the reset column is coaxially connected with the positioning column in the cavity of the shell, a thimble is arranged on the thimble seat, a needle point of the thimble penetrates through the thimble seat spring and is inserted into the thimble through hole, one end of the thimble seat spring is connected with the thimble seat, the other end of the thimble seat is connected with the inner side of the top of the shell, the thimble seat and the thimble seat spring are arranged in the cavity of the reset column and, one end of the cascade linkage rod penetrates through a linkage rod hole in the base and the locking hole is connected with the linkage rod spring, and the other end of the cascade linkage rod extends out of the hollow part of the cascade clamping seat.

In the continuously exploding balloon firecracker, the thimble through hole is positioned between the intersection part of the reset column and the top of the shell, the other end of the reset column is provided with the reset curved surface, the top of the shell and two sides of the thimble through hole are respectively provided with the position holes, the inner wall of the shell is provided with the open-ended positioning sliding groove, and the open end is in the same direction as the open end of the shell.

In the continuously explodable balloon firecracker, one side of the base is provided with the cascading clamping heads, the opposite side is provided with the cascading clamping seats, the cascading clamping heads are cylindrical hollow, the centers of the cascading clamping heads are provided with the cascading clamping head holes, the outer two sides of the cylindrical are provided with the cascading clamping pins, the cascading clamping seats are cylindrical hollow, two open grooves are respectively formed in the two sides of the end heads of the cascading clamping seats penetrating through the pipe wall, the tail ends of the grooves are provided with the cascading clamping pin positioning holes, the upper ends of the positioning columns arranged on the upper portion of the base are provided with the open positioning column sliding grooves, and the bottom of the positioning column.

In the above continuously exploding balloon firecracker, a through hole is respectively formed between the position column and the cascade chuck and between the position column and the cascade chuck on the base, and is respectively a driving hole and a locking hole, the driving hole is communicated with the cascade chuck hole, the locking hole is communicated with the linkage rod hole, and the linkage rod hole is arranged in the base, is communicated with the hollow part of the cascade chuck and penetrates through the locking hole.

The balloon firecracker capable of continuously blasting is characterized in that the driving piece is provided with an open thimble seat sliding groove in the hollow side wall, the open end is arranged at the upper end of the driving piece, the upper part of the driving piece is in a convex shoulder shape, a groove is formed in the position where the upper part of the driving piece and the open end of the thimble seat sliding groove are intersected, a positioning sliding block is arranged on the outer side of the upper part of the driving piece, and the driving piece limited by the positioning sliding block slides up and down in the positioning sliding groove.

According to the continuously-exploding balloon firecracker, the ejector pin seat is provided with the ejector pin seat swing rod on the outer side of the lower end, the lower portion of the ejector pin seat swing rod is in a convex shoulder shape, the ejector pin seat swing rod is limited in a closed cavity formed by the reset curved surface, the set curved surface and the set column sliding groove to slide up and down or swing around the axis, and the ejector pin seat is driven by the ejector pin seat swing rod to slide up and down or rotate around the axis in the cavity of the reset column and the set column.

In the continuously exploding balloon firecracker, the balloon supporting bundle is arranged on the outer side of the top end of the shell and is shaped like a bowl, the bottom of the bowl is the top end of the shell, and a plurality of open grooves are formed in the edge of the opening of the bowl.

In the continuously exploding balloon firecracker, the bottom of the base is provided with the hook, the through hole which is arranged in the middle of the base and penetrates through the upper part and the lower part of the base is an air port, and the air port is connected with the cavity of the reset column and is also connected with the linkage rod hole.

Compared with the prior art, the invention has the following remarkable effects:

the thimble is skillfully pulled back into the inner cavity of the shell quickly after the balloon filled with gas is punctured, so that the efficiency is high and the personal safety is guaranteed; and the principle of classical domino effect is skillfully fused and used, so that after the first balloon is triggered and detonated, a plurality of balloon blasting assemblies connected in series behind the first balloon blasting assembly are triggered one by one, and balloons which are respectively bound and filled with gas are blasted.

The device has the advantages of simple structure, small volume, reliability, ingenuity, low cost, reusability and good operability, and is a substitute for traditional firecrackers with strong practicability and a toy with interest.

Drawings

FIG. 1 is an exemplary illustration of an assembly structure according to the present invention.

Figure 2 is a schematic diagram of a typical structure of a balloon bursting assembly according to the present invention.

The reference numerals in the figures denote:

1. a drive member; 2. A thimble seat chute; 3. setting a curved surface; 4. positioning a sliding block; 5. a thimble seat swing rod; 6. positioning the sliding groove; 7. setting a column chute; 8. a curved surface is reset; 9. a thimble seat spring; 10. a thimble; 11. a thimble through hole; 12. balloon ligation; 13. a reset column; 14. a positioning column; 15. the upper part of the driving piece; 16. a drive spring; 17. a housing; 18. cascading bayonet locks; 19. cascading the chucks; 20. cascading bayonet holes; 21. a base; 22. driving a wedge block; 23. A drive aperture; 24. a gas port; 25. a linkage rod spring; 26. a linkage rod hole; 27. a locking hole; 28. a driver locking block; 29. cascading the card seats; 30. a cascade linkage rod; 31. cascading bayonet pin positioning holes; 32. a thimble seat; 33. a positioning hole; 34. triggering the plug; 35. a first balloon bursting assembly; 36. hooking; 37. a second balloon bursting assembly; 38. and a third balloon bursting assembly.

Detailed Description

In order to make the technical solutions of the present invention better understood, the present invention is further described below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, a balloon firecracker capable of continuously blasting comprises a plurality of balloon blasting assemblies connected in series, a cascade chuck 19 of one balloon blasting assembly is inserted and locked in a cascade chuck 29 of another balloon blasting assembly, the cascade chuck 29 of a first balloon blasting assembly 35 is interconnected with a triggering plug 34, and the balloon blasting assembly is characterized in that: comprises a shell 17, a base 21, a cascade linkage rod 30, a linkage rod spring 25, a driving piece 1, a driving spring 16, an ejector pin base 32 and an ejector pin base spring 9, wherein the shell 17 is hollow, the bottom of the shell is open, an ejector pin through hole 11 is formed in the top of the shell, a hollow reset column 13 is arranged on the inner side of the top of the shell, a hollow positioning column 14 is arranged on the upper portion of the base 21, the inner diameter and the outer diameter of the positioning column 14 are the same as those of the reset column 13, the bottom of the shell 17 is connected with the upper portion of the base 21, the reset column 13 is coaxially connected with the positioning column 14 in a cavity of the shell 17, an ejector pin 10 is arranged on the ejector pin base 32, the needle point of the ejector pin 10 penetrates through the ejector pin base spring 9 to be inserted into the ejector pin through hole 11, one end of the ejector pin base spring 9 is connected with the ejector pin base 32, the other end of the ejector pin base 32 is connected with the inner side of the top of the, the driving spring 16 is arranged outside the hollow driving piece 1, one end of the driving spring is connected with the upper part 15 of the driving piece, the other end of the driving piece is connected with the upper part of the base 21, the driving piece 1 and the driving spring 16 are arranged in the cavity of the shell 17 and penetrate through the reset column 13 and the position column 14, the lower part of the driving piece 1 is provided with a driving wedge block 22 and a driving piece locking block 28 which respectively penetrate through a driving hole 23 and a locking hole 27 arranged on the base 21, one end of the cascade linkage rod 30 penetrates through a linkage rod hole 26 arranged in the base 21 and the locking hole 27 and is connected with the linkage rod spring 25, and the other end of the cascade linkage rod extends out of the hollow part of the cascade clamping seat 29.

In the continuously exploding balloon firecracker, the thimble through hole 11 is located between the intersection part of the reset column 13 and the top of the shell 17, the other end of the reset column 13 is provided with the reset curved surface 8, the top of the shell 17 and two sides of the thimble through hole 11 are respectively provided with the position holes 33, the inner wall of the shell 17 is provided with the open-ended positioning sliding groove 6, and the open end is in the same direction as the open end of the shell 17.

In the continuously explodable balloon firecracker, one side of the base 21 is provided with the cascading clamping head 19, the opposite side is provided with the cascading clamping seat 29, the cascading clamping head 19 is cylindrical hollow, the center is provided with the cascading clamping head hole 20, the two sides outside the cylindrical are provided with the cascading clamping heads 18, the cascading clamping seat 29 is cylindrical hollow, two open grooves are respectively formed in two sides of the end of the cascading clamping seat 29 penetrating through the pipe wall, the tail end of each open groove is provided with the cascading clamping head positioning hole 31, the upper end of the positioning column 14 arranged on the upper portion of the base 21 is provided with the open positioning column sliding groove 7, and the bottom of the positioning column sliding groove 7 is provided with the positioning curved surface 3.

In the above-mentioned continuously explodable balloon firecracker, a through hole is respectively opened between the position column 14 and the cascade chuck 19 and between the position column 14 and the cascade chuck 29 on the base 21, and the through holes are respectively a driving hole 23 and a locking hole 27, the driving hole 23 is communicated with the cascade chuck hole 20, the locking hole 27 is communicated with the linkage rod hole 26, the linkage rod hole 26 is arranged in the base 21, is communicated with the hollow part of the cascade chuck 29, and penetrates through the locking hole 27.

The balloon firecracker capable of continuously blasting is characterized in that the driving piece 1 is provided with an open thimble seat sliding groove 2 on the hollow side wall inside, the open end is arranged at the upper end of the driving piece, the upper part 15 of the driving piece is in a convex shoulder shape, the upper part 15 of the driving piece and the open end of the thimble seat sliding groove 2 are intersected to form a groove, a positioning sliding block 4 is arranged on the outer side of the upper part 15 of the driving piece, and the driving piece 1 limited by the positioning sliding block 4 slides up and down in the positioning sliding groove 6.

In the continuously exploding balloon firecracker, the thimble seat 32 is provided with the thimble seat swing rod 5 at the outer side of the lower end, the lower part of the thimble seat swing rod is in a convex shoulder shape, the thimble seat swing rod 5 is limited in a closed cavity formed by the reset curved surface 8, the set curved surface 3 and the set column chute 7 to slide up and down or swing around the axis, and the thimble seat 32 is driven by the thimble seat swing rod 5 to slide up and down or rotate around the axis in the cavities of the reset column 13 and the set column 14.

In the continuously exploding balloon firecracker, the balloon supporting bundle 12 is arranged on the outer side of the top end of the shell 17 and is shaped like a bowl, the bottom of the bowl is the top end of the shell 17, and a plurality of open grooves are formed in the edge of the opening of the bowl.

In the above-mentioned balloon firecracker capable of continuously blasting, the bottom of the base 21 is provided with the hook 36, the through hole which is arranged in the middle of the base 21 and penetrates through the upper and lower parts of the base is the air port 24, and the air port 24 is connected with the cavity of the reset column 13 and also connected with the linkage rod hole 26.

The invention applies the domino effect principle, after a plurality of balloon blasting assemblies 35 are connected in series, a triggering device on a plug 34 is triggered to detonate the balloon bound on the first balloon blasting assembly 35 through one-time manual or wireless remote control, so that the balloon blasting assemblies connected behind the triggering device in series are continuously triggered one by one to blast the bound balloons; for the sake of clarity, the operation of the present invention is illustrated by only connecting three balloon-blasting assemblies in series, and when a greater number of balloon-blasting assemblies are connected in series, the operation and the process can be analogized:

1. one end of the cascade clamping seat 29 of the first balloon blasting component 35 is provided with a triggering plug 34, the end of a cascade linkage rod 30 extending out of the cascade clamping seat 29 of the second balloon blasting component 37 is inserted into the cascade clamping head hole 20 of the first balloon blasting component 35, and meanwhile, the cascade clamping head 19 of the first balloon blasting component 35 is pushed into the cascade clamping seat 29 of the second balloon blasting component 37, so that the cascade clamping pin 18 of the first balloon blasting component 35 is locked in the cascade clamping pin positioning hole 31 of the second balloon blasting component 37;

2. by analogy, the end of the cascading linkage rod 30 extending out of the cascading cassette 29 of the third balloon blasting component 38 is inserted into the cascading cassette hole 20 of the second balloon blasting component 37, and meanwhile, the cascading cassette 19 of the second balloon blasting component 37 is pushed into the cascading cassette 29 of the third balloon blasting component 38, so that the cascading clamping pin 18 of the second balloon blasting component 37 is locked in the cascading clamping pin positioning hole 31 of the third balloon blasting component 38; when a larger number of balloon blasting assemblies need to be connected in series, the balloon blasting assemblies are connected in series in the same way;

3. when the number of the balloon blasting assemblies connected in series is large, the hooks 36 of the balloon blasting assemblies are hung on the same rope;

4. inserting a special tool into two positioning holes 33 at the top of the shell 17 of the first balloon explosion assembly 35, and forcibly pushing the driving piece 1 to slide downwards, wherein the driving spring 16 below the upper part 15 of the driving piece is compressed; when the inserting end of the special tool is contacted with the ejector pin base swing rod 5, the ejector pin base swing rod 5 is pushed away from the set curved surface 3 around the axis to rotate to the groove of the upper part 15 of the driving piece under the action of downward pressure and torque force of the set curved surface 3;

5. continuing to push the driving piece 1, and enabling a driving piece locking block 28 at the lower part of the driving piece 1 to reach a cascading linkage rod 30 locking position for locking;

6. the second balloon-bursting component 37 and the third balloon-bursting component 38 respectively perform similar actions to push the driving piece 1 to the locking position of the cascade linkage rod 30;

7. the balloons which are filled with gas and sealed are respectively bound into the balloon bundles 12 at the top ends of the first balloon blasting component 35, the second balloon blasting component 37 and the third balloon blasting component 38, so that the position of the thimble through hole 11 is aligned with the explosive point of the balloon;

8. at the moment, a balloon firecracker string with three balloons is ready, when manual initiation is carried out, the end of the cascade linkage rod 30 exposed out of the trigger plug 34 is pressed down towards the axial direction by hand, when wireless remote control initiation is carried out, the remote control electronic circuit pushes the cascade linkage rod 30 to move towards the axial direction, so that the driving piece locking block 28 is separated from the locking position of the cascade linkage rod 30, the driving piece 1 slides upwards and pushes the thimble seat swing rod 5 to move upwards under the pushing of the driving spring 16, the thimble 10 on the thimble seat 32 is pierced from the thimble through hole 11, the balloon bound on the thimble through hole 11 of the balloon explosion component 35 is pierced, and the balloon is exploded;

9. when the ejector pin base swing rod 5 reaches the reset curved surface 8 on the reset column 13, under the action of thrust of the driving piece 1 and torque force of the reset curved surface 8, the ejector pin base swing rod 5 rotates to the opening end of the ejector pin base sliding groove 2 around the axis to be separated from the groove on the upper part of the driving piece 1, the ejector pin base 32 slides downwards along the ejector pin base sliding groove 2 to the upper part of the set curved surface 3 under the pressure of the ejector pin base spring 9, and meanwhile, the ejector pin 10 retracts into the cavity of the shell 17;

10. when the driving piece 1 is unlocked and slides upwards, under the pushing of a driving wedge block 22 at the lower part of the driving piece 1, the cascade linkage rod 30 of the second balloon explosion component 37 is pushed out of the driving hole 23, so that the driving piece locking block 28 of the second balloon explosion component 37 is separated from the locking position of the cascade linkage rod 30, the driving piece 1 of the second balloon explosion component 37 drives the thimble 10 to pierce out of the thimble through hole 11, a balloon bound on the second balloon explosion component 37 is exploded, and the thimble 10 retracts into the cavity of the shell 17;

11. similarly, when the driving part 1 of the second balloon explosion assembly 37 is unlocked and slides upwards, under the pushing of the driving wedge 22 at the lower part of the driving part 1 of the second balloon explosion assembly 37, the cascade linkage rod 30 of the third balloon explosion assembly 38 is pushed out of the driving hole 23, so that the driving part locking block 28 of the third balloon explosion assembly 38 is separated from the locking position of the cascade linkage rod 30, the driving part 1 of the third balloon explosion assembly 38 drives the thimble 10 to pierce out of the thimble through hole 11, the balloon bound on the third balloon explosion assembly 38 is exploded, and the thimble 10 retracts into the cavity of the shell 17;

12. if more balloon blasting assemblies are connected in series, the similar actions are continuously repeated until bound balloons are blasted.

If some colorful shredded paper or colored ribbons are pre-filled in the balloon, the colorful shredded paper or colored ribbons in the balloon are sprinkled to the ground or in the air along with the explosion of the balloon, so that the festive color of the full land is left after the traditional firecracker is exploded.

The foregoing is merely an exemplary embodiment of the invention and is not intended to limit the invention in any manner. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention, using the teachings disclosed above. Therefore, any modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the present invention.