阅读说明：本技术 气球鞭炮爆破液 (Balloon firecracker blasting liquid ) 是由 高福立 高建伟 高建强 吕志强 高丽敏 于 2020-12-21 设计创作，主要内容包括：本发明公开了一种气球鞭炮爆破液,包括萜类化合物。这种气球鞭炮爆破液包括萜类化合物,萜类化合物具有腐蚀气球的性质,具体试验时,用喷水壶将气球鞭炮爆破液喷在气球鞭炮上时,气球鞭炮中的充气后的气球就会立马爆破,可以达到较好的实现实现气球鞭炮的爆破的效果。(The invention discloses a balloon firecracker blasting liquid which comprises terpenoid. The balloon firecracker blasting liquid comprises terpenoid compounds which have the property of corroding balloons, and when the balloon firecracker blasting liquid is sprayed on the balloon firecracker by a water spraying kettle in a specific test, the inflated balloon in the balloon firecracker can be immediately blasted, so that the effect of better realizing the blasting of the balloon firecracker can be achieved.)

1. The balloon firecracker blasting liquid is characterized by comprising terpenoid.

2. The balloon firecracker blasting liquid as claimed in claim 1, which comprises the following components by mass percent: 40 to 99.5 percent of terpenoid and 0.5 to 60 percent of auxiliary materials.

3. The balloon firecracker blasting liquid as claimed in claim 2, which comprises the following components by mass percent: 80-99% of terpenoid and 1-20% of auxiliary materials.

4. The balloon firecracker blasting liquid as claimed in claim 3, which comprises the following components by mass percent: 90-99% of terpenoid and 1-8% of auxiliary materials.

5. The balloon firecracker blasting liquid as claimed in claim 4, which comprises the following components by mass percent: 91% of the terpenoid and 9% of the adjuvant, or 92% of the terpenoid and 8% of the adjuvant, or 93% of the terpenoid and 7% of the adjuvant, or 94% of the terpenoid and 6% of the adjuvant, or 95% of the terpenoid and 5% of the adjuvant, or 96% of the terpenoid and 4% of the adjuvant, or 97% of the terpenoid and 3% of the adjuvant, or 98% of the terpenoid and 2% of the adjuvant.

6. A balloon firecracker bursting fluid as claimed in any one of claims 1 to 5 wherein the terpenoid is a monoterpene, sesquiterpene or diterpene.

7. A balloon firecracker bursting fluid as claimed in claim 6 wherein the monoterpene compound is an acyclic monoterpene compound, a monocyclic monoterpene compound, a bicyclic monoterpene compound or an irregular monoterpene compound.

8. A balloon firecracker bursting fluid as claimed in claim 7 wherein the acyclic monoterpene compound is myrcene, ocimene, alloocimene, dihydromyrcene, citronellol, geraniol, nerol, linalool, lavandiol, citral, citronellal, hydroxycitronellal, marigold ketone or dihydromarigold ketone;

the monocyclic monoterpene compound is limonene, terpinene, phellandrene, menthol, terpineol, carveol, perillyl alcohol, pulegol, phellandral, perillaldehyde, menthone, carvone or dihydrocarvone;

the bicyclic monoterpene compound is pinene, rosinol, myrtenol, verbenol, camphor, borneol, camphene, heliotropin, isoborneol, carene, 4-hydroxy-2-carene, 4-acetyl-2-carene, 3, 4-epoxycarene, fenchyl alcohol, sabinene or thujone;

the irregular monoterpene compound is pyrethrin, tropolone or ionone and its analogues.

9. A balloon firecracker bursting liquid as claimed in any one of claims 1 to 5, wherein the auxiliary material comprises at least one of vitamin polyphenol, sodium glutamate and potassium sorbate.

10. The balloon firecracker blasting liquid as claimed in claim 9, wherein in the auxiliary materials, the mass ratio of the vitamin polyphenol, the sodium glutamate and the potassium sorbate is 0.5-2: 0.5-2: 1 to 4.

Technical Field

The invention relates to the field of balloon firecrackers, in particular to a balloon firecracker blasting liquid.

Background

With the development of society, the traditional firecrackers have been banned from use gradually. However, in order to meet the requirements of consumers, the balloon firecracker is inoculated. The balloon firecracker refers to a consumer product which is formed by serially connecting a plurality of inflated balloons together for continuous blasting.

The balloon firecrackers on the market are all blasted by adopting a mode of puncturing a balloon by installing an iron needle on a pulling plate.

Namely, in the prior art, no balloon firecracker blasting liquid capable of realizing the blasting of the balloon firecracker exists at present.

Disclosure of Invention

Based on this, it is necessary to provide a balloon firecracker blasting liquid.

A balloon firecracker blasting liquid comprises terpenoid.

The balloon firecracker blasting liquid comprises terpenoid compounds which have the property of corroding balloons, and when the balloon firecracker blasting liquid is sprayed on the balloon firecracker by a water spraying kettle in a specific test, the inflated balloon in the balloon firecracker can be immediately blasted, so that the effect of better realizing the blasting of the balloon firecracker can be achieved.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention discloses a balloon firecracker blasting liquid which is characterized by comprising terpenoid.

The balloon firecracker blasting liquid comprises terpenoid compounds, wherein the terpenoid compounds have the property of corroding balloons, and when the balloon firecracker blasting liquid is sprayed on the balloon firecracker by a water spraying pot in a specific test, the inflated balloons in the balloon firecracker can immediately blast, so that the effect of blasting the balloon firecracker can be well realized.

Terpenoids are compounds derived from pentamethylene dihydroxy acid and having isoprene unit (C5 unit) as basic structural unit in molecular skeleton, and derivatives thereof. These oxygen-containing derivatives may be alcohols, aldehydes, ketones, carboxylic acids, esters, and the like. Terpenoids are widely found in nature and are the main components of flavors, resins, pigments, etc. that constitute some plants. Such as rose oil, eucalyptus oil, rosin, etc., contain various terpenoids.

The main materials of the balloon are rubber and latex, and the terpenoid has good solubility to the rubber and the latex, so when the terpenoid touches the inflated balloon, the terpenoid dissolves a small area of the surface of the balloon, the stress balance of the balloon is broken, the needling effect is generated, and the balloon is broken.

Preferably, the balloon firecracker blasting liquid comprises the following components in percentage by mass: 40 to 99.5 percent of terpenoid and 0.5 to 60 percent of auxiliary materials.

More preferably, the balloon firecracker blasting liquid comprises the following components in percentage by mass: 80 to 99 percent of terpenoid and 1 to 20 percent of auxiliary materials.

Particularly preferably, the balloon firecracker blasting liquid comprises the following components in percentage by mass: 90 to 99 percent of terpenoid and 1 to 8 percent of auxiliary materials.

In a specific embodiment, the balloon firecracker blasting liquid comprises the following components in percentage by mass: 91% of terpenoid and 9% of auxiliary material, or 92% of terpenoid and 8% of auxiliary material, or 93% of terpenoid and 7% of auxiliary material, or 94% of terpenoid and 6% of auxiliary material, or 95% of terpenoid and 5% of auxiliary material, or 96% of terpenoid and 4% of auxiliary material, or 97% of terpenoid and 3% of auxiliary material, or 98% of terpenoid and 2% of auxiliary material.

Generally, terpenoids include monoterpenes, sesquiterpenes, or diterpenes.

Monoterpene compounds refer to terpenes and derivatives thereof having two isoprene units in the molecule. Monoterpene compounds are widely present in secretory tissues of higher plants, mostly are main components of parts with lower boiling points in volatile oil, and oxygen-containing derivatives thereof have higher boiling points, mostly have stronger fragrance and physiological activity, are important raw materials in the industries of medicines, instruments and cosmetics, and have no volatility after being formed into glycosides.

The sesquiterpenoids are natural terpenoids which are polymerized from 3 molecules of isoprene and contain 15C atoms in the molecule. Sesquiterpenes and monoterpenes are the main components of the volatile oil, the boiling point of the sesquiterpenes is high, and the oxygen-containing derivatives of the sesquiterpenes mostly have strong fragrance and biological activity.

Diterpenoids can be regarded as natural terpenoids with 20C atoms in the molecule, which are polymerized from 4 molecules of isoprene, and due to the large molecular weight and poor volatility of diterpenoids, most diterpenoids cannot be distilled with water vapor, and are rarely found in volatile oil, and the diterpenoid components found in individual volatile oil are also mostly found in high-boiling-point fractions. Diterpene compounds are often found in nature in the form of resins, lactones or glycosides.

It is pointed out that the monoterpene compound has better effect when being applied to the balloon blasting liquid.

In particular, the monoterpene compound may be an acyclic monoterpene compound, a monocyclic monoterpene compound, a bicyclic monoterpene compound, or an irregular monoterpene compound.

The acyclic monoterpene compound can be myrcene, ocimene, alloocimene, dihydromyrcene, citronellol, geraniol, nerol, linalool, lavandil, citral, citronellal, hydroxycitronellal, marigold ketone or dihydromarigold ketone.

The monocyclic monoterpene is derived from the cyclization of chain monoterpene, and different structural types are generated due to different cyclization modes, wherein the phenolic ketone type is a deformed structural type of the monocyclic monoterpene, the carbon skeleton of the monocyclic monoterpene does not meet the isoprene regulation, the molecule of the monocyclic monoterpene has a basic structure of 1 seven-membered aromatic ring, and the seven-membered ring shows certain aromaticity due to the existence of ketone groups, such as hinokitiol. Phenolic hydroxyl in phenolic ketone molecule has stronger acidity due to the existence of ortho-position electron-withdrawing group, the acidity is stronger than that of general phenols but weaker than that of carboxylic acid, the phenolic hydroxyl is an acidic part of volatile oil, and phenolic ketone often has color reaction with some metal ions with bright color tone (such as Fe³⁺、Cu²⁺Etc.), so these reactions are commonly used to identify phenolic ketones.

It is noted that monocyclic monoterpenes work best when applied to balloon blasting fluids.

The monocyclic monoterpene compound may be limonene, terpinene, terpinolene, phellandrene, menthol, terpineol, carveol, perillyl alcohol, pulegol, phellandral, perillaldehyde, menthone, carvone or dihydrocarvone.

The bicyclic monoterpene compound is pinene, rosinol, myrtenol, verbenol, camphor, borneol, camphene, heliotropin, isoborneol, carene, 4-hydroxy-2-carene, 4-acetyl-2-carene, 3, 4-epoxycarene, fenchyl alcohol, sabinene or thujone.

The irregular monoterpene compounds are pyrethrins, tropolone or ionone and their analogues.

In general, the auxiliary materials can stabilize the properties of the terpenoid and improve the dispersibility of the terpenoid.

In this embodiment, the auxiliary material includes at least one of vitamin polyphenol, sodium glutamate, and potassium sorbate.

Specifically, in the auxiliary materials, the mass ratio of the vitamin to the sodium glutamate to the potassium sorbate is 0.5-2: 0.5-2: 1 to 4.

The invention discloses a balloon firecracker explosive liquid which is prepared by taking terpenoid as a main raw material and matching with food-grade additives such as vitamin polyphenol, sodium glutamate and potassium sorbate according to a certain proportion.

During specific tests, when the balloon firecracker blasting liquid is sprayed on a blown balloon by a sprinkling can, the balloon can be immediately blasted, and the effect of better realizing the blasting of the balloon firecracker can be achieved.

The following are specific examples.

Example 1

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 96% of limonene, 1% of vitamin polyphenol, 1% of sodium glutamate and 2% of potassium sorbate.

Example 2

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 92% of limonene, 2% of vitamin polyphenol, 2% of sodium glutamate and 4% of potassium sorbate.

Example 3

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 98% of limonene, 0.5% of vitamin polyphenol, 0.5% of sodium glutamate and 1% of potassium sorbate.

Example 4

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 96% of terpinene, 1% of vitamin polyphenol, 1% of sodium glutamate and 2% of potassium sorbate.

Example 5

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 96% of perilla alcohol, 1% of vitamin polyphenol, 1% of sodium glutamate and 2% of potassium sorbate.

Example 6

The balloon firecracker blasting liquid is prepared according to the following formula.

Comprises the following components in percentage by mass: 96% of menthone, 1% of vitamin polyphenol, 1% of sodium glutamate and 2% of potassium sorbate.

Test example

The balloon firecracker blasting liquid prepared in the embodiment 1-6 is loaded by a commercially available sprinkling can, the inflated balloon is placed at a position 1m away from the sprinkling can, and the blasting success rate and the average blasting time are recorded after 50 times of repetition, so that the following table 1 is obtained.

Wherein, the blasting time refers to the time required by pressing a switch of the water spraying kettle until the balloon is blasted.

Table 1: blasting success rate and average blasting time of balloon firecracker blasting liquid prepared in embodiments 1-6

Serial number	Number of times of blasting	Number of successful explosions	Success rate of blasting	Mean time to burst
					Example 1	50	50	100％	0.65
Example 2	50	47	94％	0.67
					Example 3	50	49	98％	0.63
Example 4	50	48	96％	0.64
					Example 5	50	46	92％	0.72
Example 6	50	49	98％	0.68

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.