CN116294828A - Electro-optical flower ignition device, electro-optical flower and series-type electro-optical flower combined structure - Google Patents

Abstract

The invention discloses an electro-optical flower ignition device, which comprises a device body, wherein the device body is of a cylindrical structure with two open ends, the upper end of the device body is provided with an ignition part for placing an ignition cylinder, an ignition powder is arranged in the ignition cylinder, the ignition powder is connected with an ignition element, and the lower end of the device body is provided with a fixing part connected with the electro-optical flower. The invention solves the technical problem of slow ignition of directly igniting the electro-optical flowers, has higher safety, is simple to operate and can continuously ignite a plurality of electro-optical flowers by one-time ignition.

Description

Electro-optical flower ignition device, electro-optical flower and series-type electro-optical flower combined structure

Technical Field

The invention relates to an electro-optical flower ignition device, an electro-optical flower and series-connection electro-optical flower combined structure, and belongs to the technical field of fireworks.

Background

The electro-optic flower is a small toy firework, and the traditional electro-optic flower is formed by coating a layer of electro-optic flower powder on an elongated rod except a short tail section, when the electro-optic flower powder is set off, the tail end is used as a hand-held end, the other end powder is ignited, and the powder is set off along the rod to emit a glaring sparkling light.

At present, the market mainly uses hand-held electro-optical flowers, and the ignition mode is to continuously burn the electro-optical anther column part by using a lighter or a fire source so as to ignite a single electro-optical flower. The traditional ignition mode is inconvenient, the ignition is slower, and hands are easy to burn during ignition.

Because the ignition point of the electro-optical flower is higher, the ignition wire cannot directly ignite the electro-optical flower, and therefore continuous ignition cannot be realized when a plurality of electro-optical flowers connected in series are ignited in a traditional ignition mode.

Disclosure of Invention

The invention aims to provide an electro-optical flower ignition device, an electro-optical flower and a series-connection electro-optical flower combined structure, so as to solve the technical problems of slow ignition and difficult ignition of the existing electro-optical flower ignition mode and achieve the purpose of continuously igniting a plurality of electro-optical flowers which are connected together in series by one-time ignition.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides an electro-optical flower ignition device, its includes the device body, and this device body is both ends open-ended tubular structure, and device body upper end is for placing the ignition portion of an ignition section of thick bamboo, is equipped with the ignition powder in the ignition section of thick bamboo, and the ignition powder is connected with the element that ignites, and device body lower extreme is the fixed part of being connected with electro-optical flower.

Therefore, the electro-optical flower ignition device can be sleeved on the top of the electro-optical flower, the ignition element can be ignited by using a fire source to ignite the ignition cylinder in the device body, the electro-optical flower is ignited in the device body by the ignition cylinder, and the ignition powder in the ignition cylinder is used for igniting the electro-optical flower.

According to the embodiment of the invention, the invention can be further optimized, and the following technical scheme is formed after the optimization:

specifically, the device body is in an inverted cone-shaped cylindrical structure with a large upper part and a small lower part.

Specifically, a guide groove for installing the ignition cylinder is formed in the side wall of the ignition part; the guide grooves are provided with two guide plates which are obliquely arranged to one side; the top of the ignition part is fixedly provided with an anti-back piece for preventing the ignition cylinder from being pulled out upwards.

Specifically, an air inlet is formed in the side wall of the ignition part, and the air inlet is arranged below the guide groove.

Specifically, the device body further comprises a connecting part for connecting the ignition part and the fixing part, and the fixing part comprises two C-shaped clamping pieces; the cross section of the connecting part is C-shaped.

Specifically, a solid primer is arranged in the ignition cylinder and above the primer.

Specifically, a bright bead is arranged below the primer.

Specifically, the ignition cylinder is a paper cylinder.

Specifically, the upper side of the ignition element is annular.

Based on the same inventive concept, the invention also provides an electro-optical flower, which comprises a grain and an iron wire, wherein the top end of the grain is provided with the electro-optical flower ignition device.

Based on the same inventive concept, the invention also provides a serial-type electro-optical flower combined structure, which comprises a plurality of electro-optical flowers as described above; the electro-optical flowers can be combined to form target subtitles and/or patterns; and a firing line for connecting a plurality of electro-optical flowers in series is arranged in the ignition element of the electro-optical flower ignition device in a penetrating way.

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

1) After the ignition cylinder is ignited, the flame in the ignition cylinder is enabled to intensively ignite the electro-optical flower downwards, and the electro-optical flower ignition device solves the technical problem of slow ignition of directly igniting the electro-optical flower, and has higher safety and simple operation.

2) The electro-optical flowers provided with the ignition device can be arranged into characters or figures, and then the plurality of electro-optical flowers are connected in series by the firing cable, and the plurality of electro-optical flowers can be ignited when the firing cable is ignited, so that the purpose of continuously igniting the plurality of electro-optical flowers by one-time ignition is achieved.

Drawings

FIG. 1 is a schematic diagram of an electro-spark ignition device of the present invention;

FIG. 2 is a front cross-sectional view of the electro-spark ignition device of the present invention;

FIG. 3 is a schematic view of the combined structure of the electro-optical flower of the present invention.

In the drawings

1-a device body; 11-an ignition part; 12-a fixing part; 121-a clip; 13-a connection; 2-an ignition cylinder; 21-an ignition element; 22-a primer fixing agent; 23-priming; 24-bright beads; 3-guiding grooves; 31-a guide plate; 4-anti-withdrawal sheets; 5-air inlet; 6-grain; 7-iron wires; 8-firing line.

Detailed Description

The invention will be described in detail below with reference to the drawings in connection with embodiments. It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other. For convenience of description, the words "upper", "lower", "left" and "right" are used hereinafter to denote only the directions corresponding to the upper, lower, left, and right directions of the drawings, and do not limit the structure.

As shown in fig. 1-2, the electro-spark ignition device of this embodiment includes a device body 1, the device body 1 is a cylindrical structure with two open ends, the upper end of the device body 1 is an ignition portion 11 where an ignition cylinder 2 is placed, an ignition powder 23 is installed in the ignition cylinder 2, the ignition powder 23 is connected with an ignition element 21, and the lower end of the device body 1 is a fixing portion 12 connected with the electro-spark.

The electro-optical flower ignition device can be sleeved on the top of the electro-optical flower, the ignition cylinder 2 in the device body 1 can be ignited by using the ignition element 21 for igniting the fire source, the electro-optical flower is ignited in the device body 1 by the ignition cylinder 2, and the electro-optical flower is ignited by the ignition element 21, so that the electro-optical flower is simpler and more convenient than directly igniting the electro-optical flower by using the fire source, and meanwhile, the danger of burning hands when the electro-optical flower is directly ignited is prevented. The ignition element 21 in this embodiment is chosen from the firing lines commonly used in the firework industry.

Preferably, in order to improve the ignition efficiency, the flame is focused downward to ignite the electro-optical flowers, and the device body 1 has a cylindrical structure with a large upper part and a small lower part. In the inverted cone-shaped device body 1, the flame of the ignition cylinder 2 can intensively spread downwards, the utilization rate of the flame is high, and the speed of igniting the electric spark is increased.

Preferably, a guide groove 3 for installing the ignition cylinder 2 is provided on a side wall of the ignition part 11; the guide groove 3 is provided with two guide plates 31 which are obliquely arranged to one side; the top end of the ignition part 11 is fixedly provided with an anti-back piece 4 for preventing the ignition cylinder 2 from being pulled out upwards.

The whole ignition cylinder 2 can be pressed into the ignition part 11 through the guide plate 31 parallel to the guide groove 3, and the ignition cylinder 2 can be blocked in the ignition part 11 and cannot fall down because the device body 1 is of an inverted cone structure; meanwhile, the ignition element 21 is located above the device body 1. The anti-back piece 4 is used for preventing the ignition cylinder 2 from falling out from the upper part of the device body 1, and also preventing the ignition cylinder 2 from falling out from the upper end of the device body 1 under the jet reaction force after ignition.

Preferably, an air inlet 5 is formed on a side wall of the ignition portion 11, and the air inlet 5 is disposed below the guide groove 3.

After the ignition cylinder 2 in the ignition part 11 is ignited, the flame can be sprayed downwards, so that the electro-optical flower is ignited, in order to enable the electro-optical flower to be ignited more easily, the ignition part 11 is in a semi-open structure, air can enter the ignition part 11 from the air inlet 5, and the condition that the electro-optical flower is not easy to ignite due to lack of oxygen is avoided.

Preferably, the fixing portion 12 includes two C-shaped clips 121; the cross section of the connecting part 13 is C-shaped.

The cross section of the connecting part 13 is C-shaped and is positioned between the ignition part 11 and the fixing part 12, one side of the connecting part 13 is opened, and flame is sprayed out from the opening position of the connecting part 13 when the electro-optical flower is ignited, so that the ornamental value is improved; meanwhile, when the electric spark is ignited, the connecting part 13 with one side open can enable more air to enter the ignition part 11, so that the full combustion of flame in the ignition part 11 is ensured.

When the two C-shaped clamping pieces 121 of the fixing part 12 are sleeved on the electro-optical flower, the two C-shaped clamping pieces 121 are pinched by hands, so that the device body 1 can be more firmly installed on the electro-optical flower.

Preferably, a primer 22 is disposed in the ignition cylinder 2, a primer 23 is disposed below the primer 22, and a bright bead 24 is disposed below the primer 23. The ignition element 21 of this embodiment selects a firing line, and the ignition cylinder 2 is a paper cylinder.

The ignition tube 2 is internally provided with the solid primer 22, the primer 23 and the bright bead 24 from top to bottom in sequence, when the primer 21 is ignited, the primer 21 can ignite the primer 23 in the ignition tube 2, the primer 23 can support the combustion of the bright bead 24, the bright bead 24 can generate high-temperature flame of about 1 second after being ignited, and the flame with different colors can be presented while the electro-optical flower is ignited, so that the flame-retardant igniter has excellent ornamental value. Meanwhile, as the fixing primer 22 is arranged above the primer 23, the flame of the primer 23 can be prevented from being sprayed upwards by the fixing primer 22, so that the flame generated by the primer 23 can be sprayed downwards only, the intensity of the flame is concentrated, and the ignition speed of the electro-optic flower is accelerated.

The solid primer 22, the primer 23 and the bright bead 24 are all common firework components in the firework industry, and the bright bead 24 is a sphere formed by combining metal powder, gunpowder and glue.

Preferably, the upper side of the pilot element 21 is annular.

In order to connect more of the electrical flowers in series, in a particular embodiment, the upper side of the ignition element 21 is annular, facilitating the passage of the firing cable 8 therethrough.

The device body 1 of the present embodiment is made of a metal material having good deformability.

Based on the same inventive concept, the invention also provides an electro-optical flower with the electro-optical flower ignition device arranged at the top end.

Based on the same inventive concept, the invention also provides a serial-type electro-optical flower combined structure, as shown in fig. 3, comprising a plurality of electro-optical flowers as described above; the electro-optical flowers can be combined to form target subtitles and/or patterns; a firing line 8 for connecting a plurality of electro-optical flowers in series is arranged in the firing element 21 of the electro-optical flower ignition device.

In practical application, the electro-optical flower with the electro-optical flower ignition device can be ignited independently, captions or patterns can be formed by combining, after the ignition element 21 of the ignition tube 2 is ignited, the ignition element 21 can ignite the igniting powder 23 in the ignition tube 2, the igniting powder 23 can support the combustion of the bright beads 24, high-temperature flame of about 1 second can be generated after the bright beads 24 are ignited, so that the electro-optical flower is ignited, and the flame can only be sprayed downwards because the upper side of the igniting powder 23 is provided with the fixing agent 22, and the flame is more concentrated and the speed of igniting the electro-optical flower is faster because the device body 1 is in an inverted cone structure. After a plurality of electro-optical flowers are vertically inserted into the ground at intervals of corresponding distances and fixed, characters or patterns are formed, and the long lead wires are connected in series and then are ignited, so that the light flame effect of the characters or the patterns can be displayed.

The foregoing examples are set forth in order to provide a more thorough description of the present invention, and are not intended to limit the scope of the invention, since modifications of the invention in various equivalent forms will occur to those skilled in the art upon reading the present invention, and are within the scope of the invention as defined in the appended claims.

Claims (10)

1. An electro-spark ignition device, characterized in that: the device comprises a device body (1), wherein the device body (1) is of a cylindrical structure with two open ends, an ignition part (11) for placing an ignition cylinder (2) is arranged at the upper end of the device body (1), an igniting powder (23) is arranged in the ignition cylinder (2), the igniting powder (23) is connected with an igniting element (21), and a fixing part (12) connected with an electro-optical flower is arranged at the lower end of the device body (1).

2. The spark ignition device of claim 1 wherein: the device body (1) is in an inverted cone-shaped cylindrical structure with a large upper part and a small lower part.

3. The spark ignition device of claim 1 wherein: a guide groove (3) for installing the ignition cylinder (2) is arranged on the side wall of the ignition part (11); two guide plates (31) which are obliquely arranged to one side are arranged on the guide groove (3);

the top end of the ignition part (11) is fixedly provided with an anti-withdrawal piece (4) for preventing the ignition cylinder (2) from being withdrawn upwards.

4. An electro-spark ignition device as set forth in claim 3, wherein: an air inlet (5) is formed in the side wall of the ignition part (11), and the air inlet (5) is arranged below the guide groove (3).

5. The spark ignition device of claim 1 wherein: the device body (1) further comprises a connecting part (13) for connecting the ignition part (11) and the fixing part (12); the fixing part (12) comprises two C-shaped clamping pieces (121); the cross section of the connecting part (13) is C-shaped.

6. The spark ignition device of claim 1 wherein: a fixing primer (22) is arranged in the ignition cylinder (2), and the fixing primer (22) is arranged above the primer (23).

7. The electro-spark ignition device of claim 6 wherein: a bright bead (24) is arranged below the igniting powder (23).

8. The spark ignition device of claim 1 wherein: the upper side of the ignition element (21) is annular.

9. An electro-optical pattern, comprising a grain (6) and an iron wire (7), characterized in that: an electro-spark ignition device according to any one of claims 1-8 is provided at the top end of the cartridge (6).

10. A series-type electro-optical flower combined structure is characterized in that: comprising a number of electro-optical flowers according to claim 9; the electro-optical flowers can be combined to form target subtitles and/or patterns;

a firing line (8) for connecting a plurality of electro-optical flowers in series is arranged in the ignition element (21) of the electro-optical flower ignition device.

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