Firework effect piece and firework
By designing fireworks effect components with inner and outer paper tube structures, the dual pushing of the inner tube unit is achieved, breaking through the limitation of the amount of propellant in the launch tube, increasing the launch height of the fireworks inner tube, and obtaining a better display effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN SIBOREI INTELLIGENT EQUIP CO LTD
- Filing Date
- 2026-05-22
- Publication Date
- 2026-06-26
AI Technical Summary
The current height of fireworks inner tubes is limited by the amount of propellant in the launch tube, which affects the display effect.
Design a firework effect component. The inner tube unit includes an inner paper tube and an outer paper tube. The inner tube unit is installed inside the outer paper tube. By pushing the propellant and effect powder in the inner and outer paper tubes, the limitation of the amount of propellant in the launch tube is broken, and the launch height of the inner tube is increased.
The inner cylinder unit is pushed twice during the fireworks launch, significantly increasing the altitude and achieving a better display effect.
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Figure CN224415898U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of fireworks technology, and more particularly to a fireworks effect component and fireworks. Background Technology
[0002] The inner tube, also known as the "effect shell" or "effect tube," is the container in fireworks that holds the effect agents (such as bright beads, opening powder, metal salts, etc.). It is usually a paper or plastic tubular structure. The inner tube of a firework is installed inside the outer tube (launch tube). Propelled by the propellant, it rises into the air and then explodes at a predetermined height, releasing visual effects such as light, color, and sound.
[0003] Currently, the height the inner cylinder ascends is related to the amount of propellant loaded in the launch tube. To ensure safety, the amount of propellant in the launch tube is limited, thus restricting the height the inner cylinder can ascend. Utility Model Content
[0004] The technical problem to be solved by this application is to provide a fireworks effect component and fireworks in view of the above-mentioned shortcomings of the prior art.
[0005] A fireworks effect component, the fireworks effect component comprising:
[0006] The inner tube unit includes an inner paper tube; the interior of the inner paper tube has a first mud bottom near the bottom and a sealing structure or a first paper bar near the top; an effect agent is filled between the first mud bottom and the sealing structure;
[0007] An outer paper tube has a second mud bottom near the bottom and a first firing port near the top; an inner tube unit is inserted into the outer paper tube; a first propellant is placed between the second mud bottom and the inner tube unit.
[0008] The inner tube lead is used to sequentially ignite the first propellant in the outer paper tube and the effect propellant in the inner paper tube.
[0009] Optionally, a second paper tube is installed inside the outer paper tube between the first ejection port and the inner tube unit.
[0010] Optionally, a third paper tube is installed inside the outer paper tube between the first propellant and the inner tube unit.
[0011] Optionally, the inner cylinder lead wire includes a first lead wire and a second lead wire;
[0012] The first lead wire passes through the first mud bottom, with one end extending into the effect agent and the other end extending into the first propellant;
[0013] The second lead wire passes through the second mud bottom, with one end extending into the first propellant and the other end extending to the outside of the outer paper tube.
[0014] Optionally, the first lead and the second lead are two parts of the same lead.
[0015] Optionally, the first lead and the second lead are two independent leads.
[0016] On the other hand, this application also provides a firework, which includes a launch tube, an outer tube lead, a second propellant, and the aforementioned firework effect components;
[0017] The inside of the launch tube has a third mud bottom near the bottom and a second launch port near the top;
[0018] The firework effect component is installed inside the launch tube; a second propellant is installed between the third mud base and the firework effect component;
[0019] One end of the outer tube lead extends into the second propellant, and the other end extends to the outside of the launch tube.
[0020] Optionally, a fourth paper bar is installed inside the launch tube between the second launch port and the firework effect element;
[0021] Inside the launch tube, between the second propellant and the firework effect element, is a fifth paper bar.
[0022] On the other hand, this application also provides a firework, which has a firework pellet, and the firework includes the firework pellet and the above-mentioned firework effect components;
[0023] The firework blasting shell has multiple launching holes arranged on it; at least some of the launching holes are equipped with the firework effect components.
[0024] The firework effect component provided in this application is installed in a launch tube. During launch, the second propellant inside the launch tube ignites and propels the firework effect component into the air. After the firework effect component is launched, the first propellant in the outer paper tube can propel the inner tube unit a second time. The inner tube unit is propelled twice during the firework launch process, breaking through the limitation on the air height caused by the amount of propellant in the launch tube, increasing the air height of the inner tube unit, and achieving a better ignition effect. Attached Figure Description
[0025] Figure 1 This is a structural schematic diagram of a fireworks effect component in an embodiment of this application.
[0026] Figure 2This is a structural schematic diagram of another firework effect component in an embodiment of this application.
[0027] Figure 3 This is a schematic diagram of the structure of an inner cylinder unit in an embodiment of this application.
[0028] Figure 4 This is a schematic diagram of another inner cylinder unit in an embodiment of this application.
[0029] Figure 5 This is a schematic diagram of the structure of fireworks in an embodiment of this application.
[0030] Reference numerals: Firework effect component 100, inner tube unit 10, inner paper tube 11, first mud base 12, sealing structure 13a, first paper bar 13b, effect powder 14, outer paper tube 20, second mud base 21, first launch port 22, first propellant 23, inner tube lead wire 30, first section lead wire 31, second section lead wire 32, second paper bar 41, third paper bar 42, fourth paper bar 43, fifth paper bar 44, launch tube 50, third mud base 51, second launch port 52, second propellant 53, outer tube lead wire 60. Detailed Implementation
[0031] The following are specific embodiments of this application, described in conjunction with the accompanying drawings, to further illustrate the technical solutions of this application. However, this application is not limited to these embodiments. In the following description, specific details such as particular configurations and components are provided merely to aid in a comprehensive understanding of the embodiments of this application. Therefore, those skilled in the art should understand that various changes and modifications can be made to the embodiments described herein without departing from the scope of protection of this application. Furthermore, for clarity and brevity, descriptions of known functions and structures have been omitted.
[0032] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other.
[0033] It should be understood that the height of the inner cylinder is related to the amount of propellant loaded in the launch tube. To ensure safety, the amount of propellant in the launch tube is limited, thus limiting the height of the inner cylinder. Therefore, this application provides a fireworks effect component that overcomes the limitation on the height imposed by the amount of propellant in the launch tube, increasing the height of the inner cylinder unit to achieve a better ignition effect.
[0034] The following is a detailed description of the fireworks effect components provided in this application, with reference to the accompanying drawings.
[0035] refer to Figures 1-4The fireworks effect component 100 includes an inner tube unit 10, an outer paper tube 20, and an inner tube lead 30. The inner tube unit 10 includes an inner paper tube 11; the inner paper tube 11 has a first mud bottom 12 near the bottom and a sealing structure 13a or a first paper flap 13b near the top; an effect powder 14 is placed between the first mud bottom 12 and the sealing structure 13a. The outer paper tube 20 has a second mud bottom 21 near the bottom and a first launch port 22 near the top; the inner tube unit 10 is inserted into the outer paper tube 20; a first propellant 23 is placed between the second mud bottom 21 and the inner tube unit 10. The inner tube lead 30 is used to sequentially ignite the first propellant 23 in the outer paper tube 20 and the effect powder 14 in the inner paper tube 11.
[0036] The inner tube unit 10 is used to create aerial explosion effects after launch, such as colors, patterns, and sounds. The inner paper tube 11 contains effect explosives 14, which may include effect beads, detonating explosives, and tail-effect explosives. Different effect explosives correspond to different ignition effects.
[0037] In some embodiments of this application, reference is made to Figure 3 The inner tube unit 10 includes an inner paper tube 11; the inner paper tube 11 has a first mud bottom 12 near the bottom and a sealing structure 13a near the top; an effect explosive 14 is placed between the first mud bottom 12 and the sealing structure 13a. In this structural design, the top of the inner paper tube 11 is sealed by the sealing structure 13a, which seals the effect explosive 14 inside the inner paper tube 11. When ignited, the effect explosive 14 is ignited by the fuse and produces an explosion effect in the air. The sealing structure 13a can be made of clay or other materials.
[0038] In some embodiments of this application, reference is made to Figure 4 The inner tube unit 10 includes an inner paper tube 11; inside the inner paper tube 11, a first mud bottom 12 is provided near the bottom, and a first paper blob 13b is provided near the top; an effect agent 14 is placed between the first mud bottom 12 and the first paper blob 13b. In this structural design, the first paper blob 13b is provided at the top of the inner paper tube 11. When ignited, the effect agent 14 is ignited by the fuse, which propels the first paper blob 13b out and produces a spray effect.
[0039] When making fireworks, the fireworks effect component 100 is inserted into the launch tube. (Reference) Figure 5The fireworks include a launch tube 50, an outer tube fuse 60, a second propellant 53, and a fireworks effect element 100. During launch, the second propellant 53 in the launch tube 50, after ignition, propels the fireworks effect element 100 into the air. After the fireworks effect element 100 is launched, the first propellant 23 in the outer paper tube 20 can propel the inner tube unit 10 a second time. Therefore, the inner tube unit 10 is propelled twice during the fireworks launch process, overcoming the limitation on the altitude caused by the amount of propellant in the launch tube, increasing the altitude of the inner tube unit, and achieving a better ignition effect.
[0040] In some embodiments of this application, reference is made to Figure 1 Inside the outer paper tube 20, between the first emission port 22 and the inner tube unit 10, there is a second paper baffle 41. Here, the second paper baffle 41 seals the first emission port 22 of the outer paper tube 20, which can prevent moisture and dust.
[0041] In some embodiments of this application, reference is made to Figure 2 Inside the outer paper tube 20, between the first propellant 23 and the inner tube unit 10, is a third paper tube 42. Figure 2 In the structure shown, inside the outer paper tube 20, a second paper bar 41 is installed between the first firing port 22 and the inner tube unit 10, while a third paper bar 42 is installed between the first propellant 23 and the inner tube unit 10.
[0042] In some embodiments of this application, the inner tube lead 30 includes a first lead 31 and a second lead 32. The first lead 31 passes through the first mud bottom 12, with one end extending into the effect drug 14 and the other end extending into the first propellant 23. The second lead 32 passes through the second mud bottom 21, with one end extending into the first propellant 23 and the other end extending to the outside of the outer paper tube 20.
[0043] In some embodiments of this application, the first fuse 31 and the second fuse 32 are two independent fuses. When the fireworks are set off, the second propellant 53 in the launch tube is ignited first. The second propellant 53 in the launch tube ignites the second fuse 32 from the outside. The second fuse 32 ignites the first propellant 23. The first propellant 23 ignites the first fuse 31. The first fuse 31 ignites the effect powder 14. Finally, the ignited effect powder 14 produces an explosive effect in the air.
[0044] In some embodiments of this application, the first fuse 31 and the second fuse 32 are two parts of the same fuse. When the fireworks are set off, the second propellant 53 in the launch tube is ignited first. The second propellant 53 in the launch tube ignites the second fuse 32 from the outside. The second fuse 32 ignites the first propellant 23, and the first fuse 31 ignites the effect powder 14. Finally, the ignited effect powder 14 produces an explosive effect in the air.
[0045] This application also provides a firework, see reference. Figure 5 The fireworks include a launch tube 50, an outer tube fuse 60, a second propellant 53, and a fireworks effect element 100 provided in the previous section. The launch tube 50 has a third mud base 51 near the bottom and a second launch port 52 near the top. The fireworks effect element 100 is inserted into the launch tube 50; the second propellant 53 is placed between the third mud base 51 and the fireworks effect element 100. One end of the outer tube fuse 60 extends into the second propellant 53, and the other end extends to the outside of the launch tube 50.
[0046] The firework effect component 100 includes an inner tube unit 10, an outer paper tube 20, and an inner tube lead 30. The inner tube unit 10 includes an inner paper tube 11; the inner paper tube 11 has a first mud bottom 12 near the bottom and a sealing structure 13a or a first paper flap 13b near the top; an effect powder 14 is placed between the first mud bottom 12 and the sealing structure 13a. The outer paper tube 20 has a second mud bottom 21 near the bottom and a first launch port 22 near the top; the inner tube unit 10 is inserted into the outer paper tube 20; a first propellant 23 is placed between the second mud bottom 21 and the inner tube unit 10. The inner tube lead 30 is used to sequentially ignite the first propellant 23 in the outer paper tube 20 and the effect powder 14 in the inner paper tube 11.
[0047] In some embodiments of this application, a fourth paper bar 43 is installed inside the launch tube 50 between the second launch port 52 and the firework effect element 100. A fifth paper bar 44 is installed inside the launch tube 50 between the second propellant 53 and the firework effect element 100.
[0048] When the fireworks are launched, the user ignites the outer tube fuse 60, which ignites the second propellant 53 in the launch tube 50. Next, the second propellant 53 in the launch tube 50 ignites the second fuse 32, which in turn ignites the first propellant 23. The first fuse 31 then ignites the effect powder 14, ultimately causing an explosion in the air. The inner tube unit 10 is propelled twice during the fireworks launch, overcoming the limitation on altitude imposed by the amount of propellant in the launch tube, increasing the altitude of the inner tube unit, and achieving a better launch effect.
[0049] It should be noted that, Figure 5 The fireworks shown are single-tube fireworks; the launch tube 50 can be made from a paper tube. For details regarding the firework effect component 100, please refer to the previous section; it will not be repeated here.
[0050] This application also provides another type of firework, which has a firework cluster and includes the firework cluster and the firework effect element 100 provided in the previous part. The firework cluster has a plurality of launch holes; the firework effect element 100 is installed in at least some of the launch holes.
[0051] The firework effect component 100 includes an inner tube unit 10, an outer paper tube 20, and an inner tube lead 30. The inner tube unit 10 includes an inner paper tube 11; the inner paper tube 11 has a first mud bottom 12 near the bottom and a sealing structure 13a or a first paper flap 13b near the top; an effect powder 14 is placed between the first mud bottom 12 and the sealing structure 13a. The outer paper tube 20 has a second mud bottom 21 near the bottom and a first launch port 22 near the top; the inner tube unit 10 is inserted into the outer paper tube 20; a first propellant 23 is placed between the second mud bottom 21 and the inner tube unit 10. The inner tube lead 30 is used to sequentially ignite the first propellant 23 in the outer paper tube 20 and the effect powder 14 in the inner paper tube 11.
[0052] The fireworks provided in this embodiment are combination fireworks. The structure and launch process of combination fireworks are existing technology and will not be described in detail here. Figure 5 The difference between the single-tube fireworks shown is that the fireworks bulb has multiple launch holes, each of which can form an independent launch unit. The launch process is similar to that of single-tube fireworks. The inner tube unit 10 is pushed twice during the fireworks launch process, which breaks through the limitation of the air height caused by the amount of propellant in the launch tube, increases the air height of the inner tube unit, and achieves a better display effect.
[0053] In this application, the mud base may be made of clay or non-mud materials such as gypsum, sawdust, or sealing agents (such as a mixture containing magnesium chloride / magnesium oxide).
[0054] In the above embodiments of this application, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions of other embodiments.
[0055] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this application, "a plurality of" means at least two, such as two, three, etc., unless otherwise explicitly specified. It should be noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the exemplary embodiments according to this application. As used herein, unless the context clearly indicates otherwise, the singular form is also intended to include the plural form. Furthermore, it should be understood that when the terms "comprising" and / or "including" are used in this specification, they indicate the presence of features, steps, operations, devices, components, and / or combinations thereof.
[0056] The specific embodiments described herein are merely illustrative examples of the technical solutions of this application. Those skilled in the art to which this application pertains may make various modifications or additions to the described specific embodiments or use similar methods to replace them, but without departing from the scope defined by the claims of this application.
Claims
1. A fireworks effect component, characterized in that, The fireworks effect components include: The inner tube unit includes an inner paper tube; the interior of the inner paper tube has a first mud bottom near the bottom and a sealing structure or a first paper bar near the top; an effect agent is filled between the first mud bottom and the sealing structure; An outer paper tube has a second mud bottom near the bottom and a first firing port near the top; an inner tube unit is inserted into the outer paper tube; a first propellant is placed between the second mud bottom and the inner tube unit. The inner tube lead is used to sequentially ignite the first propellant in the outer paper tube and the effect propellant in the inner paper tube.
2. The fireworks effect component according to claim 1, characterized in that, Inside the outer paper tube, between the first ejection port and the inner tube unit, is a second paper tube.
3. The fireworks effect component according to claim 2, characterized in that, Inside the outer paper tube, between the first propellant and the inner tube unit, is a third paper tube.
4. The fireworks effect component according to claim 1, characterized in that, The inner cylinder lead wire includes a first lead wire and a second lead wire; The first lead wire passes through the first mud bottom, with one end extending into the effect agent and the other end extending into the first propellant; The second lead wire passes through the second mud bottom, with one end extending into the first propellant and the other end extending to the outside of the outer paper tube.
5. The fireworks effect component according to claim 4, characterized in that, The first lead and the second lead are two parts of the same lead.
6. The fireworks effect component according to claim 4, characterized in that, The first lead and the second lead are two independent leads.
7. A type of firework, characterized in that, The fireworks include a launch tube, an outer tube lead, a second propellant, and a fireworks effect component as described in any one of claims 1-6; The inside of the launch tube has a third mud bottom near the bottom and a second launch port near the top; The firework effect component is installed inside the launch tube; a second propellant is installed between the third mud base and the firework effect component; One end of the outer tube lead extends into the second propellant, and the other end extends to the outside of the launch tube.
8. The fireworks according to claim 7, characterized in that, Inside the launch tube, between the second launch port and the firework effect component, is a fourth paper bar; Inside the launch tube, between the second propellant and the firework effect element, is a fifth paper bar.
9. A type of firework, characterized in that, The fireworks have a fireworks cluster, and the fireworks include the fireworks cluster and the fireworks effect element as described in any one of claims 1-6; The firework blasting shell has multiple launching holes arranged on it; at least some of the launching holes are equipped with the firework effect components.