CN111001166A

CN111001166A - Sound-light simulation electronic firecracker resonator

Info

Publication number: CN111001166A
Application number: CN201911409477.4A
Authority: CN
Inventors: 鲍旭东; 戴东升; 范谦
Original assignee: Jiangxi Xuguang Vacuum Electric Appliance Co ltd
Current assignee: Jiangxi Xuguang Vacuum Electric Appliance Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-14
Anticipated expiration: 2039-12-31
Also published as: CN111001166B

Abstract

The invention discloses a sound and light simulation electronic firecracker resonator, wherein a high-pitch explosive head fixing plate is arranged on the inner wall of the upper part of an outer barrel resonator, a high-pitch explosive head mechanism is arranged on the high-pitch explosive head fixing plate, a bottom circular plate is arranged on the inner wall of the bottom of the outer barrel resonator, a bass channel mechanism is arranged at the top of the bottom circular plate, a bass explosive head mechanism is arranged at the center part of the bottom circular plate, and a circuit board mechanism is connected to the bottom of the bass explosive head mechanism. The bass head frying mechanism utilizes the basic structure of a horn type high pitch horn middle cylinder to lead the airflow and the sound generated by electric sparks to generate the sound effect of popping the first sound which is similar to two skirts through the conduction, the reflection and the resonance of a cylinder cavity of the high pitch horn middle cylinder and the multi-harmonic resonance of the whole body of the resonator; the high-pitch blasting head mechanism is provided with a high-pitch blasting head glass viewing cylinder and a sound returning hole, and air flow and sound generated by electric sparks are converted into 'papa' sound through the high-pitch blasting head mechanism, so that the sound and light effects of two kickers of the electric firecrackers are realized.

Description

Sound-light simulation electronic firecracker resonator

Technical Field

The invention belongs to the technical field of electronic firecrackers, and particularly relates to a sound resonator of an acousto-optic simulation electronic firecrackers.

Background

The double-bang firecrackers, also called two-kick, are a traditional folk-custom article, which is commonly used in many occasions such as festival, wedding, memorial and the like, and rely on the principle that the reaction force caused by the impact force of bottom gunpowder on the ground rises. Gunpowder is arranged in two layers in a paper tube of the double-sound firecracker, the gunpowder on the lower layer is used for sending the firecracker to the sky, and the gunpowder on the upper layer is used for making an air explosion sound after being lifted to 10-20 m. The first sound of the two kicks is the explosion mainly based on the thrust generated by the gunpowder at the bottom under lower pressure through the flaming recoil, the chemical reaction process is longer, the generated sound is more tedious and has a low-pitch component, the electric capacity discharges to generate the sound of electric sparks, the sound is similar to a small firecracker, the high-pitch component is the main component, and the first sound of the two kicks is difficult to simulate in the existing electric spark discharge explosion sounding technology.

Disclosure of Invention

The invention aims to provide a resonator of an acousto-optic simulation electronic firecracker, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a resonator of an acousto-optic simulation electronic firecracker comprises an outer barrel resonator, wherein a high-pitch frying head fixing plate is arranged on the inner wall of the upper portion of the outer barrel resonator, a high-pitch frying head mechanism is arranged on the high-pitch frying head fixing plate, a bottom circular plate is arranged on the inner wall of the bottom of the outer barrel resonator, a low-pitch channel mechanism is arranged at the top of the bottom circular plate, a low-pitch frying head mechanism is arranged at the center of the bottom circular plate, a circuit board mechanism is connected to the bottom of the low-pitch frying head mechanism, the anode of the circuit board mechanism, the anode of the low-pitch frying head mechanism and the anode of the high-pitch frying head mechanism are connected in a penetrating mode through an anode copper screw, and the cathode of the circuit board mechanism, the cathode of the low-pitch frying head mechanism and the cathode of the;

bass access mechanism is including well tube socket, echo pipe and loudspeaker well section of thick bamboo, the central opening of end plectane, the fixed central opening part that sets up at end plectane of well tube socket, the bass entrance has been seted up at the center of well tube socket, the bottom of echo pipe and the top fixed connection of well tube socket, the bottom opening and the bass entrance butt joint of echo pipe, loudspeaker well section of thick bamboo's bottom and the marginal fixed connection of well tube socket, the echo pipe is located loudspeaker well section of thick bamboo.

Preferably, the circuit board mechanism comprises a circuit board, and a circuit board anode and a circuit board cathode are arranged on the circuit board; the circuit board is also provided with a voltage doubling rectifying circuit, an energy storage capacitor, a bass ignition circuit, a treble ignition circuit, a bass ignition trigger high-voltage wire and a treble ignition trigger high-voltage wire which are respectively connected with corresponding trigger electrodes, and two ends of the energy storage capacitor are respectively connected with the positive pole of the circuit board and the negative pole of the circuit board.

Preferably, the first mechanism of bass fried is including the first fixed plate of bass fried, it looks a section of thick bamboo to be provided with the first positive pole of bass fried, the first negative pole of bass fried, the first high-voltage trigger electrode of bass fried and the first glass of bass fried on the first fixed plate of bass fried, the first glass of bass fried looks a top and well bobbin base bottom butt joint of section of thick bamboo, the first positive pole of bass fried, the first negative pole of bass fried, the first high-voltage trigger electrode of bass fried all look a section of thick bamboo in the first glass of bass fried and be connected with the first discharge electrode of bass discharge.

Preferably, the first mechanism is fried to high pitch is including the first anodal, the first negative pole is fried to high pitch, the first high-pressure trigger electrode is fried to high pitch and the first glass of high pitch is looked a section of thick bamboo and is all set up on the first fixed plate is fried to high pitch, the first negative pole is fried to high pitch, the first high-pressure trigger electrode is fried to high pitch all to be connected with the high pitch and discharge and fry the first discharge electrode in the first glass of high pitch is looked a section of thick bamboo, the sound hole has been seted up on the first fixed plate is fried to high pitch in the first glass of high pitch is.

Preferably, the high-pitch frying head fixing plate and the low-pitch frying head fixing plate are made of insulating rubber plates, bakelite or plastic products.

Preferably, the high-pitch discharge exploding head discharge electrode and the low-pitch discharge exploding head discharge electrode are made of tungsten alloy.

Preferably, the high-pitch fryer high-voltage trigger electrode and the low-pitch fryer high-voltage trigger electrode are made of tungsten alloy.

Has the advantages that:

(1) according to the acoustic and optical simulation electronic firecracker resonator, the bass sound cracking mechanism utilizes the basic structure of the horn type high pitch horn middle cylinder, so that airflow and sound generated by electric sparks are conducted, reflected and resonated through the high pitch horn middle cylinder cavity, and are in multi-harmonic resonance with the resonator integrally to generate a sound effect of popping first sound which is similar to two kicks; the high-pitch blasting head mechanism is provided with a high-pitch blasting head glass viewing cylinder and a sound returning hole, and air flow and sound generated by electric sparks are converted into 'papa' sound through the high-pitch blasting head mechanism, so that the sound and light effects of two kickers of the electric firecrackers are realized.

(2) The invention relates to a resonator of acousto-optic simulation electronic firecrackers, wherein two-skirting electric firecrackers are provided with a low-pitch explosive head and a high-pitch explosive head which are taken as sounding and light-emitting units, the low-pitch explosive head simulates the first sound of the two-skirting firecrackers, and the high-pitch explosive head simulates the second sound; the bass explosion head is arranged in a semi-closed body consisting of a bottom circular plate, a bass explosion head glass viewing cylinder and a middle cylinder seat, air flow generated by the bass explosion head is sprayed out from an echo pipe on the middle cylinder seat, is reflected by a high pitch horn middle cylinder and enters an outer cylinder resonance box, sound is mainly transmitted from the channel, and a part of electric spark flash is transmitted out from the viewing cylinder wall to simulate the lighting effect of the firecrackers.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic top view of a high pitch fryer head retaining plate according to the present invention.

In the figure: 1-outer cylinder resonator, 2-high pitch frying head fixing plate, 3-high pitch frying head mechanism, 31-high pitch frying head positive electrode, 32-high pitch frying head negative electrode, 33-high pitch frying head high-voltage trigger electrode, 34-high pitch frying head glass viewing cylinder, 35-high pitch discharging head discharging electrode, 36-sound returning hole, 4-bottom circular plate, 5-low pitch channel mechanism, 51-middle cylinder seat, 511-low pitch channel port, 52-sound returning pipe, 53-high pitch horn middle cylinder, 6-low pitch frying head mechanism, 61-low pitch frying head fixing plate, 62-low pitch frying head positive electrode, 63-low pitch frying head negative electrode, 64-low pitch frying head high-voltage trigger electrode, 65-low pitch frying head glass viewing cylinder, 66-low pitch discharging head discharging electrode, 7-circuit board mechanism, 71-circuit board, 72-circuit board anode, 73-circuit board cathode, 8-anode copper screw and 9-cathode copper screw.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

As shown in fig. 1-2, the resonator of the acousto-optic simulation electronic firecracker comprises an outer barrel resonator 1, the inner wall of the upper part of the outer cylinder resonance box 1 is provided with a high-pitch head fixing plate 2, the high-pitch head fixing plate 2 is provided with a high-pitch head mechanism 3, a bottom circular plate 4 is arranged on the inner wall of the bottom of the outer cylinder resonance box 1, a bass channel mechanism 5 is arranged on the top of the bottom circular plate 4, a low-pitch fryer head mechanism 6 is arranged at the central part of the bottom circular plate 4, a circuit board mechanism 7 is connected with the bottom of the low-pitch fryer head mechanism 6, the positive pole of the circuit board mechanism 7, the positive pole of the bass head mechanism 6 and the positive pole of the treble head mechanism 3 are connected through a positive copper screw 8, the negative electrode of the circuit board mechanism 7, the negative electrode of the low-pitch deep fryer mechanism 6 and the negative electrode of the high-pitch deep fryer mechanism 3 are connected in a penetrating way through a negative copper screw 9;

bass passageway mechanism 5 is including well bobbin base 51, echo pipe 52 and loudspeaker well section of thick bamboo 53, the central opening of end plectane 4, well bobbin base 51 is fixed to be set up at the central opening part of end plectane 4, bass passage mouth 511 has been seted up at well bobbin base 51's center, the bottom of echo pipe 52 and the top fixed connection of well bobbin base 51, the bottom opening and the bass passage mouth 511 of echo pipe 52 dock, loudspeaker well section of thick bamboo 53's bottom and well bobbin base 51's edge fixed connection, echo pipe 52 is located loudspeaker well section of thick bamboo 53.

The circuit board mechanism 7 comprises a circuit board 71, and a circuit board anode 72 and a circuit board cathode 73 are arranged on the circuit board 71; the circuit board 71 is further provided with a voltage doubling rectifying circuit, an energy storage capacitor, a bass ignition circuit, a treble ignition circuit, a bass ignition trigger high-voltage wire and a treble ignition trigger high-voltage wire which are respectively connected with corresponding trigger electrodes, and two ends of the energy storage capacitor are respectively connected with the positive electrode 72 of the circuit board and the negative electrode 73 of the circuit board.

First mechanism 6 is fried including the bass, fry first fixed plate 61 to the bass, fry first positive 62, the first negative pole 63, the first high-pressure trigger electrode 64 of bass and fry first glass of bass and look a section of thick bamboo 65 on the first fixed plate 61 of bass, fry first glass of bass and look the top of a section of thick bamboo 65 and dock bottom well section of thick bamboo seat 51, fry first positive 62, the first negative pole 63, the first high-pressure trigger electrode 64 of bass and all look a section of thick bamboo 65 internal connection at first glass of bass and have the first discharge electrode 66 of bass discharge.

The high pitch is fried first mechanism 3 and is looked a section of thick bamboo 34 including the high pitch is fried first positive 31, the high pitch is fried first negative pole 32, the high pitch is fried first high pressure trigger electrode 33 and the high pitch is fried first glass, the high pitch is fried first positive 31, the high pitch is fried first negative pole 32, the high pitch is fried first high pressure trigger electrode 33 and the high pitch is fried first glass and is looked a section of thick bamboo 34 and all set up on high pitch is fried first fixed plate 2, the high pitch is fried first positive 31, the high pitch is fried first negative pole 32, the high pitch is fried first high pressure trigger electrode 33 and all is connected with the high pitch and is discharged fried first discharge electrode 35 in the high pitch is fried first glass is looked a section of thick bamboo 34, the high pitch is fried first glass and is looked a section of thick bamboo and has been seted.

The high-pitch frying head fixing plate 2 and the low-pitch frying head fixing plate 61 are made of insulating rubber plates, bakelite or plastic products, and have good high-temperature resistance. .

The high pitch discharge exploding head discharge electrode 35 and the low pitch discharge exploding head discharge electrode 66 are made of tungsten alloy.

The high-pitch head high-voltage trigger electrode 33 and the low-pitch head high-voltage trigger electrode 64 are made of tungsten alloy.

The invention relates to a sound resonator of acousto-optic simulation electronic firecrackers, wherein a low sound exploder mechanism 6 utilizes the basic structure of a horn-type high-pitch horn middle cylinder 53 to lead the airflow and sound generated by electric sparks to generate the sound effect of popping first sound which is similar to two kicks through the conduction, reflection and resonance of the cylinder cavity of the high-pitch horn middle cylinder 53 and the integral multi-harmonic resonance of the resonator; the high pitch fryer mechanism 3 is provided with a high pitch fryer glass viewing cylinder 34 and a sound returning hole 36, and air flow and sound generated by electric sparks are converted into 'papa' sound through the high pitch fryer mechanism 3, so that the acousto-optic effect of the two-kicking-foot electric firecracker is realized.

The invention relates to a resonator of acousto-optic simulation electronic firecrackers, wherein two-skirting electric firecrackers are provided with a low-pitch explosive head and a high-pitch explosive head which are taken as sounding and light-emitting units, the low-pitch explosive head simulates the first sound of the two-skirting firecrackers, and the high-pitch explosive head simulates the second sound; the low-pitch blasting head is arranged in a semi-closed body consisting of the bottom circular plate 4, the low-pitch blasting head glass viewing cylinder 65 and the middle cylinder base 51, the generated air flow is sprayed out from the echo pipe 52 on the middle cylinder base 51, is reflected by the high-pitch horn middle cylinder 53 and enters the outer cylinder resonant box 1, the sound is mainly transmitted from the channel, and part of the electric spark flash is transmitted out from the viewing cylinder wall, so that the fire light effect of the firecrackers is simulated.

The embodiments of the present invention have been described in detail, but the embodiments are merely examples, and the present invention is not limited to the above-described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, equivalent alterations and modifications are intended to be included within the scope of the invention, without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a syntonizer of reputation emulation electron firecrackers which characterized in that:

comprises an outer cylinder resonator (1), a high-pitch fryer fixing plate (2) is arranged on the inner wall of the upper part of the outer cylinder resonator (1), a high-pitch head mechanism (3) is arranged on the high-pitch head fixing plate (2), a bottom circular plate (4) is arranged on the inner wall of the bottom of the outer cylinder resonance box (1), a bass channel mechanism (5) is arranged at the top of the bottom circular plate (4), a bass head-frying mechanism (6) is arranged at the central part of the bottom circular plate (4), the bottom of the bass frying head mechanism (6) is connected with a circuit board mechanism (7), the positive pole of the circuit board mechanism (7), the positive pole of the bass head mechanism (6) and the positive pole of the treble head mechanism (3) are connected through a positive copper screw (8), the negative electrode of the circuit board mechanism (7), the negative electrode of the bass head frying mechanism (6) and the negative electrode of the treble head frying mechanism (3) are connected in a penetrating way through a negative copper screw (9);

bass passageway mechanism (5) are including well bobbin base (51), echo pipe (52) and loudspeaker well section of thick bamboo (53), the central opening of end plectane (4), well bobbin base (51) are fixed to be set up at the central opening part of end plectane (4), bass opening (511) have been seted up at the center of well bobbin base (51), the bottom of loudspeaker well section of thick bamboo (52) and the top fixed connection of well bobbin base (51), the bottom opening and the butt joint of bass opening (511) of loudspeaker well section of thick bamboo (52), the edge fixed connection of the bottom of loudspeaker well section of thick bamboo (53) and well bobbin base (51), loudspeaker well section of thick bamboo (52) are located loudspeaker well section of thick bamboo (53).

2. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 1, wherein:

the circuit board mechanism (7) comprises a circuit board (71), and a circuit board anode (72) and a circuit board cathode (73) are arranged on the circuit board (71).

3. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 1, wherein:

first mechanism (6) is fried including the bass, fry first fixed plate (61) to the bass, it explodes first positive pole (62), the first negative pole (63), the first high-pressure trigger electrode of the first high pressure of bass (64) and the first glass of bass fried to be provided with the bass on the first fixed plate of bass (61) to look a section of thick bamboo (65), the first glass of bass fried looks the top and well section of thick bamboo seat (51) bottom butt joint, the first positive pole of bass fried (62), the first negative pole of bass fried (63), the first high-pressure trigger electrode of bass fried (64) all look a section of thick bamboo (65) internal connection at the first glass of bass fried and have bass discharge to fry first discharge electrode (66).

4. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 3, characterized in that:

first mechanism (3) is fried to high pitch including the first anodal (31) of high pitch, high pitch fried first negative pole (32), high pitch fried first high pressure trigger electrode (33) and high pitch fried first glass and look a section of thick bamboo (34), the first anodal (31) of high pitch fried, high pitch fried first negative pole (32), high pitch fried first high pressure trigger electrode (33) and high pitch fried first glass look a section of thick bamboo (34) and all set up on high pitch fried first fixed plate (2), high pitch fried first positive (31), high pitch fried first negative pole (32), high pitch fried first high pressure trigger electrode (33) all are connected with high pitch fried first discharge electrode (35) in high pitch fried first glass looks a section of thick bamboo (34), sound hole (36) have been seted up on high pitch fried first fixed plate (2) in high pitch fried first glass looks a section of thick bamboo (35), the open-top of high pitch fried first glass looks a section of thick bamboo (34).

5. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 4, wherein:

the high-pitch frying head fixing plate (2) and the low-pitch frying head fixing plate (61) are made of insulating rubber plates, bakelite or plastic products.

6. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 4, wherein:

the high-pitch discharge exploding head discharge electrode (35) and the low-pitch discharge exploding head discharge electrode (66) are made of tungsten alloy.

7. The resonator of the acousto-optic simulation electronic firecracker as claimed in claim 4, wherein:

the high-pitch head high-voltage trigger electrode (33) and the low-pitch head high-voltage trigger electrode (64) are made of tungsten alloy.