阅读说明：本技术 一种热香爆发蜡烛香精及其制备方法 (Hot fragrant bursting candle essence and preparation method thereof ) 是由 刘勇 刘经永 丁应江 于 2021-07-12 设计创作，主要内容包括：本申请涉及香精香料领域,具体公开了一种热香爆发蜡烛香精及其制备方法。一种热香爆发蜡烛香精,包括如下重量份数的组分：二氢月桂烯醇1-5份；乙酸异龙脑酯1-5份；乙酸对叔丁基环己酯1-5份；乙酸松油酯1-5份；邻苯二甲酸二乙酯10-20份；柏木油20-30份；异长叶烷酮1-5份；苯甲酸苄酯10-20份；松针油20-30份；广藿香油1-5份；罗雅檀香1-5份；甲基柏木酮1-5份；其制备方法为：将各原料置于搅拌容器中进行搅拌混合,搅拌混合均匀后,再将得到的混合液体进行高压均质,即可得到热香爆发蜡烛香精。本申请的热香爆发蜡烛香精在蜡烛中应用燃烧时,加热后具有较强的爆发力,能够较长时间的持续性维持较高的香气强度,整体应用性好。(The application relates to the field of essence and spice, and particularly discloses a thermal fragrant bursting candle essence and a preparation method thereof. The hot fragrant bursting candle essence comprises the following components in parts by weight: 1-5 parts of dihydromyrcenol; 1-5 parts of isobornyl acetate; 1-5 parts of p-tert-butylcyclohexyl acetate; 1-5 parts of terpinyl acetate; 10-20 parts of diethyl phthalate; 20-30 parts of cedar oil; 1-5 parts of isolongifolanone; 10-20 parts of benzyl benzoate; 20-30 parts of pine needle oil; 1-5 parts of patchouli oil; 1-5 parts of Luoya sandalwood; 1-5 parts of methyl cedryl ketone; the preparation method comprises the following steps: the raw materials are placed in a stirring container to be stirred and mixed, after the raw materials are stirred and mixed uniformly, the obtained mixed liquid is homogenized under high pressure, and the hot fragrant bursting candle essence can be obtained. When the hot fragrant bursting candle essence is applied to burning in a candle, stronger bursting force is achieved after heating, higher fragrance intensity can be maintained for a longer time, and the whole applicability is good.)

1. The thermal fragrant bursting candle essence is characterized by comprising the following components in parts by weight:

1-5 parts of dihydromyrcenol;

1-5 parts of isobornyl acetate;

1-5 parts of p-tert-butylcyclohexyl acetate;

1-5 parts of terpinyl acetate;

10-20 parts of diethyl phthalate;

20-30 parts of cedar oil;

1-5 parts of isolongifolanone;

10-20 parts of benzyl benzoate;

20-30 parts of pine needle oil;

1-5 parts of patchouli oil;

1-5 parts of Luoya sandalwood;

1-5 parts of methyl cedryl ketone.

2. The hot scented popping candle essence of claim 1, characterized in that: 0.1-0.5 parts by weight of functional auxiliary agent is also added into the thermal fragrant bursting candle essence, the functional auxiliary agent mainly comprises guar gum and xanthan gum, and the mass ratio of the guar gum to the xanthan gum is 1: (0.5-1.3).

3. The hot scented popping candle essence of claim 2, characterized in that: the mass ratio of the guar gum to the xanthan gum is 1: 0.7.

4. the hot scented popping candle essence of claim 1, characterized in that: the hot fragrant bursting candle essence is characterized in that 2-6 parts by weight of a bursting auxiliary agent is also added, wherein the bursting auxiliary agent mainly comprises litsea cubeba oil and dendranthema indicum absolute oil, and the mass ratio of the litsea cubeba oil to the dendranthema indicum absolute oil is 1: (0.3-0.9).

5. The hot scented popping candle flavor of claim 4, wherein: the mass ratio of the litsea cubeba oil to the dendranthema indicum absolute oil is 1: 0.5.

6. the hot scented popping candle essence of claim 1, characterized in that: the hot fragrant bursting candle essence is also added with 1-5 parts of mixed extract liquor by weight, and is obtained by the following steps:

s1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: (0.4-0.7): (1.1-1.5);

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath, distilling and extracting, and concentrating to obtain a mixed extract.

7. The hot scented popping candle essence of claim 1, characterized in that: the mass ratio of the hawthorn tincture to the honey to the tamarind extract is 1: 0.5: 1.2.

8. the method for preparing the hot fragrant bursting candle essence of claim 1, which is characterized by comprising the following steps:

(1) preparing raw materials containing dihydromyrcenol, isobornyl acetate, p-tert-butylcyclohexyl acetate, terpinyl acetate, diethyl phthalate, cedar wood oil, isolongifola ketone, benzyl benzoate, pine needle oil, patchouli oil, sandalwood and methyl cedar wood ketone according to a ratio;

(2) and (2) placing the raw materials in the step (1) into a stirring container to be stirred and mixed, uniformly stirring and mixing, and then carrying out high-pressure homogenization on the obtained mixed liquid to obtain the thermal fragrant bursting candle essence.

Technical Field

The application relates to the field of essence and spice, in particular to a thermal fragrant bursting candle essence and a preparation method thereof.

Background

The essence is a mixture which is prepared by manual operation, contains more than two or even dozens of spices and has certain fragrance. The daily chemical essence refers to essence for perfuming and flavoring perfumes, cosmetics, cleaning products and industrial products, and then the candle essence is also one of daily chemical essences.

The invention discloses a incense essence for combustion and a preparation method and application thereof in a Chinese invention patent application with the publication number of CN108504453A, wherein the incense essence for combustion comprises 6-7.5 parts of Baileiman sandalwood, 0.05-0.2 part of ebony alcohol, 2108-10 parts of sandalwood, 20-25 parts of sandalwood alcohol, 80322-28 parts of sandalwood, 0.5-1.5 parts of methyl cedryl ether, 3-6 parts of tebiprofen alcohol, 0.5-2 parts of leopard ambergris and 20-38 parts of benzyl benzoate. In the application process, the fragrance can be kept for a long time through the matching effect of the components.

In view of the above-mentioned related technologies, the inventors believe that the obtained essence material is difficult to maintain the lasting fragrance after being heated in the candle and during the burning process, and even if the lasting fragrance can be maintained, the burst force of the fragrance is greatly reduced, and the fragrance intensity is reduced, so a new scheme needs to be proposed to solve the above-mentioned problems.

Disclosure of Invention

In order to improve the overall aroma burst strength of the candle essence, the application provides the thermal aroma burst candle essence and a preparation method thereof.

In a first aspect, the application provides a thermal incense bursting candle essence, which adopts the following technical scheme:

the hot fragrant bursting candle essence comprises the following components in parts by weight:

1-5 parts of dihydromyrcenol;

1-5 parts of isobornyl acetate;

1-5 parts of p-tert-butylcyclohexyl acetate;

1-5 parts of terpinyl acetate;

10-20 parts of diethyl phthalate;

20-30 parts of cedar oil;

1-5 parts of isolongifolanone;

10-20 parts of benzyl benzoate;

20-30 parts of pine needle oil;

1-5 parts of patchouli oil;

1-5 parts of Luoya sandalwood;

1-5 parts of methyl cedryl ketone.

By adopting the technical scheme, the isobornyl acetate has fresh and fresh pine leaf fragrance, and has good stability and shielding effect; the cedar wood oil is a good fixative and a good coordinator, can reduce the loss of aroma and improve the associativity among other raw materials; the pine needle oil has strong fragrance and lasting and stable fragrance; the applicant finds that when the isobornyl acetate, the cedar wood oil and the pine needle oil are mixed for use and are applied to the candle for combustion, the candle has strong explosive force after being heated, can maintain high fragrance intensity for a long time, and has good integral applicability.

Preferably, 0.1-0.5 part by weight of functional auxiliary agent is also added into the thermal fragrant bursting candle essence, the functional auxiliary agent mainly comprises guar gum and xanthan gum, and the mass ratio of the guar gum to the xanthan gum is 1: (0.5-1.3).

By adopting the technical scheme, the functional auxiliary agents consisting of the guar gum and the xanthan gum are mutually adhered and form a framework structure in the candle after being heated, so that the thermal fragrant bursting candle essence can keep good organizational structure stability after being heated, and a mixing system among raw materials of each component is stable. And further, the hot fragrant bursting candle essence keeps continuous and stable strong bursting force in the application process, and has strong fragrance and strong durability.

Preferably, the mass ratio of the guar gum to the xanthan gum is 1: 0.7.

by adopting the technical scheme, the functional auxiliary agent consisting of the guar gum and the xanthan gum in the proportion has the best synergistic effect on the thermal fragrant explosion candle essence.

Preferably, 2-6 parts by weight of an explosion aid is added into the hot fragrant explosion candle essence, the explosion aid mainly comprises litsea cubeba oil and dendranthema indicum absolute oil, and the mass ratio of the litsea cubeba oil to the dendranthema indicum absolute oil is 1: (0.3-0.9).

By adopting the technical scheme, the explosion auxiliary agent consisting of the litsea cubeba oil and the tree orchid absolute oil has good fragrance and lasting fragrance explosion, can be well applied to the candle, keeps a good dispersion system, improves the activity of essence molecules when being heated, has strong explosive force when being applied to the candle and burns, and ensures that the fragrance has good penetrability.

Preferably, the mass ratio of the litsea cubeba oil to the dendranthema indicum absolute oil is 1: 0.5.

by adopting the technical scheme, the explosion auxiliary agent consisting of the litsea cubeba oil and the tree orchid absolute oil in the proportion has the best synergistic effect on the thermal fragrant explosion candle essence.

Preferably, the hot fragrant bursting candle essence is further added with 1-5 parts by weight of mixed extract liquor, and is obtained by the following steps:

s1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: (0.4-0.7): (1.1-1.5);

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath, distilling and extracting, and concentrating to obtain a mixed extract.

By adopting the technical scheme, the mixed extract obtained by the method has a good covering effect on smoke generated during candle burning, and the extraction products of the hawthorn tincture, the honey and the tamarind fruit extract can uniformly and quickly volatilize after being heated along with candle burning, so that a good fragrance increasing effect is achieved. Meanwhile, when the active ingredients in the mixed extract liquid are burnt in the candle, the pollution to the environment is small, and the whole candle is green and environment-friendly.

Preferably, the mass ratio of the hawthorn tincture to the honey to the tamarind fruit extract is 1: 0.5: 1.2.

by adopting the technical scheme, the mixed extract obtained by mixing and extracting the hawthorn tincture, the honey and the tamarind fruit extract according to the proportion has the best synergistic effect on the thermal fragrant bursting candle essence.

In a second aspect, the application provides a preparation method of the thermal fragrant bursting candle essence, which adopts the following technical scheme: a preparation method of hot fragrant bursting candle essence comprises the following steps:

(1) preparing raw materials containing dihydromyrcenol, isobornyl acetate, p-tert-butylcyclohexyl acetate, terpinyl acetate, diethyl phthalate, cedar wood oil, isolongifola ketone, benzyl benzoate, pine needle oil, patchouli oil, sandalwood and methyl cedar wood ketone according to a ratio;

(2) and (2) placing the raw materials in the step (1) into a stirring container to be stirred and mixed, uniformly stirring and mixing, and then carrying out high-pressure homogenization on the obtained mixed liquid to obtain the thermal fragrant bursting candle essence.

By adopting the technical scheme, the preparation method is simple in operation process, stable in production, excellent in quality of the obtained product and good in overall applicability.

In summary, the present application has the following beneficial effects:

1. the hot fragrant bursting candle essence is prepared by mixing isobornyl acetate, cedar wood oil and pine needle oil and adding other auxiliary agents, so that the hot fragrant bursting candle essence has strong bursting force after being heated when being applied and combusted, can maintain higher fragrance intensity for a longer time, and has good integral applicability;

2. the functional auxiliary agent composed of guar gum and xanthan gum is heated and mutually adhered to form a skeleton structure in the candle, so that the hot fragrant explosion candle essence can keep good structural stability after being heated, and is favorable for keeping strong explosive force which is continuous and stable, and the fragrance is strong and the durability is strong;

3. the explosion auxiliary agent consisting of the litsea cubeba oil and the tree orchid absolute oil has good fragrance, the fragrance is exploded for a long time, a good dispersion system of the hot fragrance explosion candle essence can be kept, the activity of essence molecules is improved when the candle essence is heated, the explosion force is strong when the candle is burnt, and the fragrance has good penetration degree;

4. the application adopts the extraction product of hawthorn tincture, honey and tamarind fruit extract, and the extraction product can be evenly and rapidly volatilized after being heated along with the burning of the candle, thereby playing a good aroma-enhancing role. Meanwhile, when the active ingredients in the mixed extract liquid are burnt in the candle, the pollution to the environment is small, and the whole candle is green and environment-friendly.

Detailed Description

The present application will be described in further detail with reference to examples.

Examples of preparation of raw materials and/or intermediates

Preparation example 1

S1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: 0.55: 1.3;

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath at 50 ℃, distilling and extracting for 3 hours, concentrating the extractive solution which is dichloromethane after distilling and extracting, and concentrating the extractive solution to one fifth of the original volume by using a rotary evaporator to obtain a mixed extractive solution.

Preparation example 2

S1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: 0.4: 1.1;

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath at 50 ℃, distilling and extracting for 3 hours, concentrating the extractive solution which is dichloromethane after distilling and extracting, and concentrating the extractive solution to one fifth of the original volume by using a rotary evaporator to obtain a mixed extractive solution.

Preparation example 3

S1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: 0.7: 1.5;

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath at 50 ℃, distilling and extracting for 3 hours, concentrating the extractive solution which is dichloromethane after distilling and extracting, and concentrating the extractive solution to one fifth of the original volume by using a rotary evaporator to obtain a mixed extractive solution.

Preparation example 4

S1, preparing raw materials of hawthorn tincture, honey and tamarind fruit extract according to a mixture ratio, wherein the mass ratio of the raw materials to the raw materials is 1: 0.5: 1.2;

s2, dissolving the raw materials in the step S1 in pure water to saturation, uniformly mixing, heating in a water bath at 50 ℃, distilling and extracting for 3 hours, concentrating the extractive solution which is dichloromethane after distilling and extracting, and concentrating the extractive solution to one fifth of the original volume by using a rotary evaporator to obtain a mixed extractive solution.

Note: the hawthorn tincture in the preparation examples is purchased from scientific biotechnology limited of Wuhan Hua. Mel was purchased from cooperative society of Tao Beauveria in Zhongxian; tamarind fruit extract was purchased from Ningxia vanilla Biotechnology, Inc.

Examples

Example 1

The hot fragrant bursting candle essence comprises the components and the corresponding parts by weight shown in table 1, and is prepared by the following steps:

(1) preparing raw materials containing dihydromyrcenol, isobornyl acetate, p-tert-butylcyclohexyl acetate, terpinyl acetate, diethyl phthalate, cedar wood oil, isolongifola ketone, benzyl benzoate, pine needle oil, patchouli oil, sandalwood and methyl cedar wood ketone according to a ratio;

(2) and (2) placing the raw materials in the step (1) into a stirring container to be stirred and mixed, uniformly stirring and mixing, and then carrying out high-pressure homogenization on the obtained mixed liquid to obtain the thermal fragrant bursting candle essence.

Note: the dihydromyrcenol obtained in the above steps is purchased from Hubei Jiujiulong chemical Co., Ltd, and is a top-grade product with CAS number of 18479-58-8; isoborneol acetate was purchased from Wuhan daozol Biotech, Inc. under CAS number 125-12-2; the p-tert-butylcyclohexyl acetate is purchased from Shandong Yuanhua Biotech Co., Ltd, and has a CAS number of 88-41-5; terpinyl acetate was purchased from bio-technology ltd, bai mada, beijing, CAS number 58985-18-5; diethyl phthalate was purchased from Shanghai Kaiser chemical Co., Ltd under CAS number 84-66-2; the cedarwood oil is purchased from Jiangxi cedar natural medicinal oil Co., Ltd, and the CAS number is 8000-27-9; isolongifolanone is purchased from Gnaphaline Biotechnology limited of Wuhan Hua, science and technology, CAS number 23787-90-8; benzyl benzoate was purchased from Jinan Virginia chemical Co., Ltd, CAS number 120-51-4; the pine needle oil is purchased from Wuhan La Na white pharmaceutical chemical industry Co., Ltd, and the CAS number is 8021-29-2; patchouli oil was purchased from Jian Borui flavor oil Co., Ltd, CAS number 8014-09-3; the Roya sandalwood is purchased from Kao chemical science and technology Limited in North east of lake, CAS number is 3407-42-9; the cedryl methyl ketone is available from Kazao chemical science and technology Co., Ltd, North Hu, CAS number 32388-55-9.

Examples 2 to 4

The difference between the thermal fragrant bursting candle essence and the example 1 is that the components and the corresponding parts by weight are shown in the table 1.

TABLE 1 Components and parts by weight (kg) thereof in examples 1-4

Example 5

The difference between the thermal fragrant bursting candle essence and the embodiment 1 is that 0.3 part by weight of functional auxiliary agent is added into each raw material in the step (1), and the functional auxiliary agent is prepared from guar gum and xanthan gum according to the mass ratio of 1: 0.9. Guar gum is purchased from Jiangsu Yukun Biotechnology Co., Ltd, and the CAS number is 9000-30-0; xanthan gum is available from Hebei Peng Biotech, Inc. under CAS number 11138-66-2.

Example 6

The difference between the thermal fragrant bursting candle essence and the embodiment 5 is that 0.1 part by weight of functional auxiliary agent is also added into each raw material in the step (1), and the functional auxiliary agent is prepared from guar gum and xanthan gum according to the mass ratio of 1: 0.5.

Example 7

The difference between the thermal fragrant bursting candle essence and the embodiment 5 is that 0.5 part by weight of functional auxiliary agent is added into each raw material in the step (1), and the functional auxiliary agent is prepared from guar gum and xanthan gum according to the mass ratio of 1: 1.3.

Example 8

The difference between the thermal fragrant bursting candle essence and the embodiment 5 is that 0.3 part by weight of functional auxiliary agent is added into each raw material in the step (1), and the functional auxiliary agent is prepared from guar gum and xanthan gum according to the mass ratio of 1: 0.7.

Example 9

The difference between the hot fragrant bursting candle essence and the embodiment 1 is that 4 parts by weight of bursting auxiliary agent are added into each raw material in the step (1), and the bursting auxiliary agent is prepared from litsea cubeba oil and tree orchid absolute oil in a mass ratio of 1: 0.6. The litsea cubeba oil is purchased from Hubei Chu scintillation Biotechnology Co., Ltd, and has the CAS number of 68855-99-2; the tree orchid absolute oil is purchased from Yunnan Lilian biology Limited.

Example 10

The difference between the hot fragrant bursting candle essence and the embodiment 9 is that 2 parts by weight of bursting auxiliary agent is added into each raw material in the step (1), and the bursting auxiliary agent is prepared from litsea cubeba oil and tree orchid absolute oil in a mass ratio of 1: 0.3.

Example 11

The difference between the hot fragrant bursting candle essence and the embodiment 9 is that 6 parts by weight of bursting auxiliary agent is added into each raw material in the step (1), and the bursting auxiliary agent is prepared from litsea cubeba oil and tree orchid absolute oil in a mass ratio of 1: 0.9.

Example 12

The difference between the hot fragrant bursting candle essence and the embodiment 9 is that 4 parts by weight of bursting auxiliary agent is added into each raw material in the step (1), and the bursting auxiliary agent is prepared from litsea cubeba oil and tree orchid absolute oil in a mass ratio of 1: 0.5.

Example 13

The difference between the thermal fragrant bursting candle essence and the example 1 is that 3 parts by weight of mixed extract liquor is also added into each raw material in the step (1), and the mixed extract liquor is taken as the preparation example 1.

Example 14

A thermal fragrant bursting candle essence is different from the essence in the embodiment 13 in that 1 part by weight of mixed extract liquor is also added into each raw material in the step (1), and the mixed extract liquor is taken as the preparation example 2.

Example 15

A thermal fragrant bursting candle essence is different from the essence in the embodiment 13 in that 5 parts by weight of mixed extract liquor is also added into the raw materials in the step (1), and the mixed extract liquor is taken as the preparation example 3.

Example 16

A thermal fragrant bursting candle essence is different from the essence in the embodiment 13 in that 3 parts by weight of mixed extract liquor is also added into the raw materials in the step (1), and the mixed extract liquor is taken as the preparation example 4.

Comparative example

Comparative example 1

The difference between the thermal fragrant bursting candle essence and the embodiment 1 is that the raw materials in the step (1) do not contain isoborneol acetate, cedar wood oil and pine needle oil.

Comparative example 2

The difference between the thermal fragrant bursting candle essence and the embodiment 1 is that the raw materials in the step (1) do not contain isoborneol acetate and pine needle oil.

Comparative example 3

The difference between the hot fragrant bursting candle essence and the embodiment 1 is that the raw materials in the step (1) do not contain cedar wood oil and pine needle oil.

Comparative example 4

The difference between the thermal fragrant bursting candle essence and the example 1 is that the raw materials in the step (1) do not contain isobornyl acetate and cedar wood oil.

Comparative example 5

The difference between the thermal fragrant bursting candle essence and the embodiment 8 is that 0.3 part by weight of functional additive is also added into each raw material in the step (1), and the functional additive is guar gum.

Comparative example 6

The difference between the thermal fragrant bursting candle essence and the embodiment 8 is that 0.3 part by weight of functional auxiliary agent is also added into each raw material in the step (1), and the functional auxiliary agent is xanthan gum.

Comparative example 7

The difference between the hot fragrant bursting candle essence and the embodiment 12 is that 4 parts by weight of bursting aid is also added into each raw material in the step (1), and the bursting aid is litsea cubeba oil.

Comparative example 8

The difference between the hot fragrant bursting candle essence and the embodiment 12 is that 4 parts by weight of bursting aid is also added into each raw material in the step (1), and the bursting aid is tree orchid absolute oil.

Comparative example 9

A thermal fragrant bursting candle essence is different from the essence in the embodiment 16 in that the raw material of the mixed extract liquor in the preparation example 4 only adopts hawthorn tincture.

Comparative example 10

A thermal fragrant bursting candle essence is different from the essence in the embodiment 16 in that only honey is selected as the raw material of the mixed extract liquid in the preparation example 4.

Comparative example 11

A thermal fragrant bursting candle essence is different from the essence in the embodiment 16 in that only tamarind fruit extract is selected as the raw material of the mixed extract in the preparation example 4.

Performance testing test samples: the hot fragrant bursting candle essences obtained in examples 1 to 16 were used as test samples 1 to 16, and the hot fragrant bursting candle essences obtained in comparative examples 1 to 11 were used as control samples 1 to 11.

The test method comprises the following steps: taking 2700g of semi-refined paraffin, averagely dividing into 27 parts, each 100g, and heating and melting by adopting a water bath; when the temperature of the paraffin is reduced to 90 ℃, 5g of hot fragrant bursting candle essence in the test samples 1-16 and the control samples 1-11 are respectively added, and the mixture is rapidly and uniformly stirred; when the temperature of the paraffin is reduced to 80 ℃, the centers of the paraffin of the cotton threads soaked in the paraffin are respectively processed; after paraffin is completely hardened and molded, 27 candle samples can be obtained. And finally, selecting 10 sensory evaluators according to the national standard GB/T14454.2-2008 spice aroma evaluation method, and testing the evaluators by a triangle evaluation method to ensure that the evaluators can completely, quickly and accurately distinguish different aroma concentrations. Sensory evaluators were allowed to score the intensity of the fragrance burst during burning for each candle sample over a range of 1-10 points, and the results, averaged, are reported in table 2 below.

And (3) test results: the comparison of the test results of the test samples 1-4 and the control samples 1-4 in the table 2 shows that the hot fragrant bursting candle essence obtained by mixing the isobornyl acetate, the cedar wood oil and the pine needle oil and adding other auxiliary agents has strong bursting power after being heated when being combusted. The test results of the test samples 5-8 and the control samples 5-6 are compared to obtain that the functional auxiliary agent consisting of guar gum and xanthan gum can keep good tissue structure stability of the thermal fragrant explosion candle essence after being heated, and is beneficial to keeping continuous and stable strong explosive force. The test results of the test samples 9-12 and the control samples 7-8 are compared to obtain that the explosion auxiliary agent consisting of litsea cubeba oil and tree orchid absolute oil can keep a good dispersion system of the thermal fragrant explosion candle essence, and the explosion force is strong when the thermal fragrant explosion candle essence is applied to a candle and is combusted. The comparison of the test results of the test samples 13-16 and the control samples 9-11 shows that the extracted products of the hawthorn tincture, the honey and the tamarind fruit extract can be uniformly and rapidly volatilized after being heated along with the burning of the candle, and have good fragrance increasing and bursting effects.

TABLE 2 test results of test samples 1-16 and control samples 1-11

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.