JPH0438376B2 - - Google Patents

Description

Detailed Description of the Invention "Industrial Application Field" The present invention takes out an appropriate amount of coffee concentrate from an aerosol container using the pressure of carbon dioxide gas, and dilutes the coffee concentrate with water or hot water. This invention relates to a coffee packaged in an aerosol container that allows easy preparation of coffee, and a method for producing the same.

``Conventional technology'' Coffee is actually made by grinding roasted coffee beans with a bean grinder and extracting the resulting powder with hot water using methods such as siphoning and dripping. Coffee obtained by directly extracting hot water from coffee bean powder in this way is aromatic and delicious, but the hot water extraction process requires special equipment and is time-consuming. It was hot.

In addition, to save the above-mentioned time and effort, instant coffee is also available, which is made by pulverizing coffee bean extract into powder or granules and dissolving it in hot water. However, the flavor of instant coffee is inferior to that of original coffee, and the flavor easily deteriorates due to absorption of moisture or oxidation in the air during the storage period after opening. There were problems such as the need to use other equipment, the need to stir the mixture to dissolve it, and the fact that it was difficult to dissolve in cold water when making iced coffee.

Furthermore, the extract obtained from coffee beans is concentrated,
Concentrated coffee with added sugars is also used in some cases. This concentrated coffee can be easily made into coffee by diluting it appropriately with hot or water. However, the flavor of concentrated coffee deteriorates significantly during the process of concentrating the extract, the container must be refrigerated after opening, and microbial contamination cannot be completely prevented even when refrigerated. Therefore, there are problems such as the storage period is limited and it must be consumed quickly, and the flavor tends to deteriorate due to oxidation etc. during storage after opening.

Furthermore, so-called canned coffee is also used, which is made by adding sugars, milk raw materials, etc. as needed to the extract obtained from coffee beans and sealing the mixture in a can. However, with canned coffee, one can is used for one cup, so the cost of containers is high, empty cans must be thrown away, and sweetness and strength cannot be adjusted to suit individual tastes. There were problems such as the fact that the sterilization conditions were F ₀ 30 or higher, which caused the flavor to deteriorate.

In this way, the aroma and flavor of coffee are generally
It is easily deteriorated by heat and air, making it difficult to maintain quality. Particularly in the case of concentrated coffee, flavor deterioration is likely to occur during the concentration process.

Therefore, in order to enable long-term storage of concentrated coffee while preventing flavor deterioration, it has been proposed to enclose concentrated coffee together with an inert gas in an aerosol container.

For example, JP-A-61-192274 discloses a method for producing food in an aerosol can, which is characterized in that food contents are filled into an aerosol can and then heat sterilized, and concentrated coffee is used as the food content. It is described that laughing gas (N ₂ O), chlorofluorocarbon gas, LPG, carbon dioxide gas, nitrogen gas, and other inert gases can be used as propellants.

In addition, in Special Publication No. 43-28929, beverage concentrates
The viscosity is adjusted to 150 to 750 centipoise, and the mixture is pressurized and sealed in a container with a non-toxic propellant gas.
A product is disclosed that can be discharged as a small stream through pores provided in the container, coffee concentrate is used as the beverage concentrate, and nitrogen gas, carbon dioxide gas, or laughing gas is used as the propellant gas. It is stated that.

Furthermore, US Pat. No. 3,119,695 discloses a product in which a coffee concentrate adjusted to a Brix concentration of 30 is sealed in an aerosol container together with an inert gas, and it is stated that nitrogen gas is preferable as the inert gas. ing.

"Problem to be Solved by the Invention" However, the above-mentioned prior art only discloses simply discharging concentrated coffee using the pressure of an inert gas, and no special consideration is given to the discharge state. . For this reason, for example, as shown in Japanese Patent Publication No. 43-28929, concentrated coffee was discharged as a small jet stream through pores provided in the container. When it is discharged as a high-speed stream like this, by pouring it into water or hot water that has been poured into a cup in advance, a self-stirring effect is brought about, and the advantage is that there is no need to stir with a spoon, etc. .

However, such a method has a problem in that the amount of concentrated coffee to be poured cannot be known because the concentrated coffee is immediately mixed into the water or hot water. That is, it was difficult to adjust the temperature to the desired temperature because either too much or too little concentrated coffee was added.

In addition, in the above conventional technology, no special consideration is given to the fact that the flavor of concentrated coffee changes due to the action of inert gas, so the flavor of concentrated coffee may change depending on the type of propellant. There were times when I ended up doing something wrong.

Furthermore, as mentioned above, the flavor of concentrated coffee itself is significantly degraded during the process of concentrating the extract, so simply enclosing concentrated coffee in an aerosol can with an inert gas will not produce a good flavor. It was difficult to obtain a product with this. Concentrated coffee also has the problem that it tends to become cloudy due to precipitation during storage.

The present invention was made in view of the problems of the prior art described above, and its purpose is to easily spread and mix coffee concentrate without using a spoon or the like, even if water or hot water is added after pouring the coffee concentrate into a cup. To provide a coffee packaged in an aerosol container, which has a good flavor even when concentrated, and prevents flavor deterioration during storage, and a method for producing the same.

"Means for Solving the Problems" In order to achieve the above object, one of the coffees packaged in an aerosol container of the present invention is such that the coffee concentrate is filled into the aerosol container together with carbon dioxide gas, and the internal pressure of the product container of the carbon dioxide gas is 20°C. ℃3-7 at equilibrium
Kg/ ^cm2 , and the coffee concentrate contains coffee bean extract components, flavoring agents, sugars, artificial sweeteners, and PH adjusters, has a pH adjusted to 5.0 to 6.0, and has a solid content concentration of 15 ~60% by weight, and when the nozzle of the aerosol container is released, the coffee concentrate is jetted out in the form of foam.

Another aspect of the coffee packaged in an aerosol container of the present invention is that the coffee concentrate is filled into an aerosol container together with carbon dioxide gas, and the internal pressure of the carbon dioxide product container is set to 3 to 7 kg/cm ² in an equilibrium state of 20°C. The coffee concentrate contains coffee bean extract components, fragrances, and a PH regulator, and is adjusted to a pH of 4.7 to 5.5,
Further, the solid content concentration is 15 to 40% by weight, and when the nozzle of the aerosol container is released, the coffee concentrate is jetted out in the form of foam.

In addition, one of the methods for producing coffee packaged in an aerosol container of the present invention is to blend coffee bean extract components, sugars, artificial sweeteners, and PH adjusters to produce the final product.
A process of preparing a coffee concentrate whose pH is adjusted to 5.0 to 6.0 and a solid content concentration of 15 to 60% by weight;
A process of heat sterilization and cooling to achieve an F ₀ value of 6 or higher at ℃, and a process of aseptically adding fragrance to this coffee concentrate and adding 50 to 80% by volume to the aerosol container body.
There is a process of filling the aerosol container so that the valve unit is covered and crimped to seal it, and a process of filling the aerosol container with carbon dioxide gas until the internal pressure of the container reaches 20°C.
It is characterized by comprising a step of enclosing it so that the weight is 3 to 7 kg/cm ² in an equilibrium state.

Furthermore, another method for producing coffee packaged in an aerosol container of the present invention is to combine extract components of coffee beans and pH
A step of preparing a coffee concentrate having a final product pH of 4.7 to 5.5 and a solid content concentration of 15 to 40% by weight by blending with a regulator;
A process of heat sterilizing this coffee concentrate at 129-134℃ to an F ₀ value of 6 or more and cooling it, and aseptically adding fragrance to this coffee concentrate and filling the aerosol container with a volume of 50-80. %, the step of covering the aerosol container with the valve unit and crimping to seal it, and the step of filling the aerosol container with carbon dioxide gas at an equilibrium state of 3 to 7 ℃ at an internal pressure of 20℃.
It is characterized by consisting of a step of enclosing it so that the amount is kg/cm ² .

"Function" In the coffee packaged in an aerosol container of the present invention, by pressing the nozzle of the aerosol container, the coffee concentrate containing extract components of coffee beans flows out in the form of foam together with carbon dioxide gas. At this time, the amount of outflow can be freely adjusted by the time when the nozzle is pressed, and the outflow is almost instantaneous due to the pressure of carbon dioxide gas, and furthermore, it can be poured directly into a coffee cup or the like without using a spoon or the like. In this way, coffee can be easily made by pouring an appropriate amount of coffee concentrate into a coffee cup and diluting it to the desired strength by pouring hot or cold water.

In this case, if the coffee concentrate flows out in a foamy state, the bubbles will disappear and it will become liquid if left for a while, but by immediately pouring hot or cold water after taking out the coffee concentrate, the remaining carbon dioxide gas can be removed. Splashing facilitates the spread of coffee concentrate, so
A homogeneous solution is obtained without stirring with a spoon or the like. It also dissolves easily in cold water, making it useful when making iced coffee.

In this way, in order to make the coffee concentrate flow out in the form of foam, it is necessary to use a gas that can be dissolved in the coffee concentrate as a propellant, and to set the gas pressure and the concentration of the coffee concentrate within an appropriate range. is necessary. In the present invention, carbon dioxide gas is used as a propellant, and the internal pressure of the carbon dioxide product container is set to 3 to 7 kg/cm ² in an equilibrium state of 20°C.
By setting the solid content concentration in the coffee concentrate to 15 to 60% by weight, it was possible to make the coffee concentrate flow out in the form of foam.

In addition, when carbon dioxide gas is used as a propellant, the pH of the coffee concentrate changes due to the dissolved carbon dioxide gas.
tends to decrease. Therefore, in the present invention, the PH
Adjusters were added to raise the pH and suppress acidity. Furthermore, since the flavor of the coffee concentrate itself deteriorates during the concentration process, the flavor is improved in the present invention by adding a flavoring agent. At that time, by adding fragrance aseptically after the heat sterilization process is completed,
This prevents the effect from being impaired.

Further, one embodiment of the present invention is suitable for iced coffee, and in iced coffee, it is necessary to add sugar to impart sweetness, but as a result, the solid content concentration falls within the range specified by the present invention. This makes it difficult to flow out in the form of foam. Therefore, in an embodiment suitable for iced coffee, adding an artificial sweetener is an essential requirement, so that sufficient sweetness can be imparted even if the solid content concentration is kept low.

Furthermore, another embodiment of the present invention is suitable for hot coffee, and since consumers add sugar to hot coffee according to their preference, the composition does not contain added sugars, and the solid content concentration is 15 to 40% by weight. By limiting the amount of water to 50%, the occurrence of turbidity due to precipitation was prevented.

According to the present invention, by incorporating the various ideas described above, it is possible to obtain good flavor and quality even with concentrated coffee.

"Preferred Embodiment of the Invention" In the present invention, a container as shown in FIG. 1, for example, can be used as the aerosol container. This aerosol container 11 is composed of a container body 12 and a valve unit 13. The upper opening edge 14 of the container body 12 is bent outward into a "P"-shaped cross section. In addition, the cover plate 15 of the valve unit 13
The outer periphery is bent into an inverted "U" shape in cross section, and is adapted to fit into the opening edge 14. Lid plate 15
A valve casing 16 is attached to the lower part of the
A dip tube 17 is connected to the lower part of the valve casing 16. Date petite tube 17
The lower end of the valve unit 13 extends to the bottom within the container body 12 when the valve unit 13 is installed. The coffee concentrate filled in the container body 12 is introduced into the valve casing 16 through the dip tube 17 by carbon dioxide pressure.

A stem 19 is inserted through the center of the lid plate 15 via a seal ring 18. A flange 20 is formed in the middle of the stem 19, and a spring 21 is mounted below the flange 20, and the spring 21 presses the flange 20 against the lower surface of the seal ring 18. Further, a hole 22 is formed slightly above the flange 20 of the stem 19, and although the hole 22 is normally closed by tightly contacting the inner periphery of the seal ring 18, when the stem 19 is pushed downward, the hole 22 is sealed. It is designed to pass through below the ring 18 and open into the valve casing 16. Note that the stem 19 has a pipe shape with a closed lower end. Further, a nozzle 23 is attached to the upper end of the stem 19, and a passage 24 of the nozzle 23 communicates with an internal passage of the stem 19.

Therefore, when the stem 19 is pushed down by pressing the nozzle 23, the coffee concentrate introduced into the valve casing 16 is forced into the hole 2 by the carbon dioxide pressure.
2. Inside the stem 19, the coffee concentrate is jetted out through the passage 24 of the nozzle 23, and when the nozzle 23 is released, the stem 19 returns to its original position by the spring 21, closing the hole 22, and the coffee concentrate is jetted out. It's starting to stop. However, the present invention does not limit the structure of the aerosol container, and aerosol containers with various known structures can be employed.

The present invention is characterized in that the aerosol container as described above is filled with coffee concentrate and carbon dioxide gas.

The coffee concentrate to be filled into the aerosol container is
It is sufficient that it contains at least a coffee bean extract component. As the coffee bean extract component, various types can be used, such as an extract from coffee beans or a concentrate thereof, and powders obtained by spray-drying or freeze-drying the concentrate (so-called instant coffee). For the extraction operation from coffee beans, a known method used for manufacturing canned coffee or instant coffee can be adopted.

In addition to the above extract components, for iced coffee, sugars such as sugar, high-fructose sugar, artificial sweeteners,
Natural or synthetic fragrances and PH regulators such as baking soda are added, and for hot coffee, the same fragrances and PH regulators as above are added. Among these, fragrances are particularly important for improving flavor.
That is, since the flavor of concentrated coffee generally deteriorates during the concentration process, it is important to add flavor with flavoring agents. However, in order to prevent deterioration due to heating, it is preferable to add the fragrance aseptically after the heat sterilization process is completed, as described below. In addition, coffee concentrate itself tends to have a low pH, and the dissolved carbon dioxide further increases the pH.
Since the PH tends to decrease, PH adjusters can be used to lower the PH.
It is necessary to increase the temperature and suppress acidity.

In the present invention, the solid content concentration of the coffee concentrate needs to be 15 to 60% by weight. If the solid content concentration is less than 15% by weight, the amount of coffee that can be made from one aerosol container will decrease, and the cost increase due to the use of an aerosol container will increase, making it uneconomical. In addition, the solid content concentration is 60% by weight.
If the amount exceeds 100%, the amount of carbon dioxide dissolved in the coffee concentrate becomes unpredictable, and the viscosity of the coffee concentrate increases, making it difficult to flow out the coffee concentrate in the form of foam. Further, precipitation of extracted components may occur, resulting in a cloudy coffee, which is unfavorable in terms of appearance.

In the present invention, the composition of the coffee concentrate is different for iced coffee and for hot coffee.

For iced coffee, a product containing coffee bean extract, flavor, sugar, artificial sweetener, and PH adjuster with a solid content concentration of 15 to 60% by weight is used. In this case, in order to impart a certain degree of sweetness to iced coffee, if all the sweetening components were imparted with sugar, the amount of sugar added would increase and the solid content concentration would exceed 60% by weight, causing the problems described above. do. Therefore, in order to impart sweetness to iced coffee, it is necessary to use sugar and an artificial sweetener in combination, and the artificial sweetener preferably has a sweetness level 100 times or more that of sugar. The use of artificial sweeteners is also consistent with low calorie orientation. For iced coffee, add a pH adjuster to adjust the pH to 5.0 to 6.0.

For hot coffee, it contains coffee bean extract components, fragrances, and PH adjusters, and has a solid content of 15 to 15.
40% by weight is used. In hot coffee, it is preferable not to add sugars or artificial sweeteners so that sweeteners can be added later according to the consumer's preference. In addition, the solid content concentration is mostly coffee extract components, so
It is better to keep it to 40% by weight or less; if it exceeds 40% by weight, turbidity due to sediment etc. tends to occur.
For hot coffee, add a pH adjuster to adjust the pH to 4.7 to 5.5.

The coffee concentrate may be prepared by adding water as needed to the raw material mixture as described above so that the solid content concentration falls within the above-mentioned range, and dissolving it by heating. In this case, in a more preferred preparation method, a liquid with a desired concentration is prepared by mixing a plurality of types of coffee extracts with different concentrations. When concentrating coffee extract, the flavor of the coffee tends to deteriorate rapidly as the degree of concentration increases. For this reason, for example, as shown in Example 2, the solid content concentration
To obtain a concentrate with a solid content of 26.3% by weight, for example, rather than concentrating the coffee extract as it is to prepare a concentrate with a solid content of 26.3% by weight, for example, a concentrate with a solid content of 27% by weight.
It is better to mix the concentrated liquid with a solid content concentration of 60% by weight, and the unconcentrated extract liquid with a solid content concentration of 1.5% to have a solid content concentration of 26.3% by weight, resulting in a better final flavor. You can get the following.

Next, the coffee concentrate thus prepared was added to 129
Heat sterilize at ~134°C to an F ₀ value of 6 or higher. Generally, sterilization efficiency is determined by the F ₀ value, which is determined by temperature x processing time, but if the sterilization temperature is lower than the above, the processing time must be lengthened, resulting in greater flavor deterioration. Tend. In addition, if the sterilization temperature is higher than the above,
Although the processing time can be further shortened, it becomes difficult to create a pressure-resistant structure in the sterilization equipment. By performing sterilization at a high temperature within the above range for a short time, flavor deterioration during the sterilization process can be prevented as much as possible. The sterilized coffee concentrate is continuously cooled within the device, and the cooled coffee concentrate is stored in a tank filled with nitrogen gas to prevent contamination with microorganisms and oxygen from the outside.

Note that, as described above, it is preferable that the fragrance is added in an aseptic manner after the above-mentioned sterilization step is completed. That is, a flavor produced aseptically is added aseptically.

When filling the aerosol container 11 with the coffee concentrate prepared as described above, it is preferable to remove dust, sterilize, and replace the aerosol container body 12 with gas. Dust removal is accomplished by, for example, instantaneously spraying nitrogen or carbon dioxide gas into the aerosol container body 12, and sterilization is accomplished, for example, by instantaneously spraying an alcoholic liquid into the aerosol container body 12. The substitution is performed, for example, by momentarily blowing nitrogen or carbon dioxide gas into the aerosol container body 12 immediately before filling.

The amount of the coffee concentrate to be filled into the aerosol container 11 is preferably about 50 to 100 of the total volume of the container.

In this way, the coffee concentrate is transferred to the aerosol container 11.
The valve unit 13 is sterilized after being filled into the main body 12 of the valve unit 13. That is, the lid plate 15 of the valve unit 13 is fitted into the opening edge 14 of the main body 12. Then, the lid plate 15 is crimped to the opening edge 14 to seal it, but this work is preferably carried out under reduced pressure while removing air from the gap between the lid plate 15 and the opening edge 14.

Finally, by pressurizing carbon dioxide gas through the upper opening of the stem 19, the coffee packaged in the aerosol container of the present invention can be produced. At this time, the pressure of carbon dioxide gas is set so that the internal pressure of the product container is 3 to 7 kg/cm ² at 20° C. in an equilibrium state. If the above internal pressure is less than 3 kg/ ^cm2 , there is a risk that the coffee concentrate inside will not be able to be discharged to the end.
If it exceeds Kg/cm ² , there is a risk that the container will not have sufficient pressure resistance during high-temperature storage.

"Example" Example 1 (Iced Coffee) 30 kg of coffee concentrate with a solid content concentration of 60% by weight, 30 kg of coffee concentrate with a solid content concentration of 27% by weight, and 25 kg of sugar.
Kg, synthetic sweetener (approximately 200 times sweeter than sugar) 150g
300g of baking soda was added. Then, the mixture was stirred while being heated to about 50° C. to completely dissolve the additives. Add 15 kg of water to this to obtain a solid content concentration of 51.2% by weight and pH
A coffee concentrate of 5.5 was obtained.

This coffee concentrate is then heated to _F0 at 129-134°C.
It was heat sterilized to a value of 6 or higher. This was continuously cooled to about 10° C. in the next device, stored in a closed tank filled with nitrogen gas, and 300 g of aseptically produced natural flavor was added aseptically and mixed with stirring.

Using an aerosol container 11 (inner volume 400 ml) as shown in Fig. 1, dust removal is performed by spraying carbon dioxide gas into the inside of the main body 12, then sterilization is performed by spraying an alcohol solution, and then carbon dioxide gas is sprayed immediately before filling. Gas replacement was performed, and 280 ml of the coffee concentrate was filled. Then, the sterilized valve unit 13 was placed on top, and the lid plate 15 was crimped under reduced pressure to seal the aerosol container 11. Finally, carbon dioxide gas was introduced into the product container from the upper end of the stem 19 so that the internal pressure of the product container was 6 kg/cm ² in an equilibrium state of 20° C. to produce coffee in an aerosol container.

This coffee in an aerosol container has nozzle 2.
When you press 3, the coffee concentrate inside flows out in the form of foam, allowing you to pour the desired amount directly into a glass or the like. In this way, about 10g of coffee concentrate
When the mixture was poured into a glass and iced water was added, it immediately melted, resulting in uniformly melted iced coffee. This iced coffee had a good aroma and moderate sweetness, and was extremely delicious. After storing this coffee in an aerosol container at room temperature for about 3 months,
When I poured the coffee concentrate into a glass in the same way, poured it over ice water, and enjoyed it, I didn't notice any deterioration in flavor. Furthermore, when I used up all the coffee in this aerosol container to make coffee, I was able to make about 34 cups of coffee.

150g of synthetic sweetener used in this example
is equivalent to approximately 30 kg of sugar, so if you try to make iced coffee with the same level of sweetness as Example 1 without using synthetic sweeteners, the solid content concentration will be over 60% by weight, making production difficult. It becomes difficult. In addition, the pH of coffee concentrate is around 4.5 to 5.0, but by adjusting it to 5.5 with a pH adjuster, it has a good balance of bitterness, sweetness, and acidity.
It was delicious.

Example 2 (hot coffee) 1 kg of roasted beans are ground into fine particles and heated to 95°C.
Pour in boiling water and filter to obtain an extract with a solid content concentration of about 1.5% by weight. Pre-prepared solids concentration 27
15 kg of the above-mentioned extract and 100 g of baking soda were mixed with 75 kg of a coffee concentrate having a concentration of 60% by weight and 10 kg of a concentrate having a concentration of 60% by weight to obtain 100 kg of a coffee concentrate having a solid content concentration of 26.3% by weight and a pH of 5.0. Next, after heat sterilization and cooling in the same manner as in Example 1, 900 g of natural fragrance was added aseptically and mixed with stirring to prepare an aqueous solution. The filling process was carried out in the same manner as in Example 1, and coffee packed in an aerosol container with an internal pressure of 4.0 kg was produced.

This coffee in an aerosol container is Example 1
Similarly, it was possible to directly inject the desired amount into a coffee cup or the like. When about 5 g of coffee concentrate was poured into a coffee cup and boiling water was poured, it immediately dissolved and a uniformly dissolved coffee was obtained. This coffee had a good aroma and was extremely delicious. After storing this coffee in an aerosol container at room temperature for about 3 months, the coffee concentrate was poured into a coffee cup in the same way, and boiling water was poured over it to enjoy it, and no deterioration in flavor was noticed.
Furthermore, when we used the coffee in this aerosol container to the end, we were able to make about 62 cups of coffee. In this case, of course,
The amount of the aqueous solution used per time can be adjusted according to preference. Furthermore, by adding a PH adjuster to adjust the pH to 5.0, coffee with a well-balanced sourness and bitterness was obtained.

Test example: Adding high fructose sugar to coffee concentrate with a solid content concentration of 15% by weight, the solid content concentration was 50, 55, 60, 65, 70,
A 73.5% concentrated solution was prepared. These concentrated liquids were placed in an aerosol container, and carbon dioxide gas was sealed so that the internal pressure of the product container was 4 kg/cm ² at an equilibrium state of 20°C. Then, the concentrated liquid was drained from each container and placed in a shear dish, and the state of the concentrated liquid that flowed out was observed.

Figures 2, 3, 4, 5, 6, and 7 show solid content concentrations of 50, 55, 60, 65, respectively.
70. The state of the 73.5% concentrated liquid is shown; a shows the state immediately after flowing out, b shows the state after 30 seconds, and c shows the state after 60 seconds. In the figure, the areas marked with dots are bubble-like areas.

From this result, the solid content concentration of coffee concentrate is
It can be seen that when it exceeds 60% by weight, it becomes difficult to flow out in the form of foam.

"Effects of the Invention" As explained above, according to the present invention, carbon dioxide gas is used as a propellant, and the pressure of carbon dioxide gas and the solid content concentration of coffee concentrate are set within predetermined ranges, so that coffee concentrate can be It becomes possible to flow out in the form of bubbles. Therefore, by simply taking a desired amount of coffee concentrate into a cup and immediately pouring water or hot water into it, the concentrate can be uniformly dissolved without using a spoon or the like. Furthermore, by setting the solid content concentration of the coffee concentrate within a predetermined range, it is possible to prevent the occurrence of precipitation and maintain good quality. Furthermore, by adding a pH adjuster to adjust the pH to a predetermined range, it is possible to alleviate the sourness caused by dissolution of carbon dioxide gas and create a harmonious taste. Furthermore, by adding a flavoring agent, the flavor of concentrated coffee that has deteriorated during the concentration process can be improved. In that case, the effect can be enhanced by adding the fragrance after the heat sterilization step. Furthermore, in the case of iced coffee, by using an artificial sweetener together with saccharides, the solid content concentration can be suppressed and the necessary sweetness can be imparted. Furthermore, in the case of hot coffee, the solid content concentration is set to an even lower range, thereby making it possible to prevent the occurrence of precipitation.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view showing an example of an aerosol container used in the present invention, and FIGS. 2, 3, 4, 5, 6, and 7 show solid content concentration.
FIG. 2 is an explanatory diagram showing the state of foam when 50, 55, 60, 65, 70, and 73.5% concentrated liquids are discharged from an aerosol container. In the figure, 11 is an aerosol container, 12 is a main body, 1
3 is a valve unit, 14 is an upper opening edge, 15 is a lid plate, 16 is a valve casing, 17 is a dip tube, 18 is a seal ring, 19 is a stem,
20 is a flange, 21 is a spring, 22 is a hole,
23 is a nozzle, and 24 is a passage.

Claims (1)

[Claims] 1. Coffee concentrate is filled into an aerosol container together with carbon dioxide gas, and the internal pressure of the product container of the carbon dioxide gas is
The coffee ^concentrate contains coffee bean extract components, flavoring agents, sugars, artificial sweeteners, and PH regulators, and has a pH of 5.0 to 6.0. A coffee packaged in an aerosol container, characterized in that the solid content concentration is 15 to 60% by weight, and the coffee concentrate sprays out in the form of foam when a nozzle of the aerosol container is released. 2 Coffee concentrate is filled into an aerosol container together with carbon dioxide gas, and the internal pressure of the carbon dioxide product container increases.
3 to 7 Kg/cm ² in an equilibrium state at 20°C, and the coffee concentrate contains coffee bean extract components, fragrances, and a PH adjuster, has a pH adjusted to 4.7 to 5.5, and has a solid concentration. 15 to 40% by weight of coffee in an aerosol container, wherein the coffee concentrate is spewed out in the form of foam when a nozzle of the aerosol container is released. 3 Coffee bean extract components, sugars, and artificial sweeteners
By blending with a PH adjuster, the PH of the final product is 5.0 to 6.0.
and the solid content concentration is 15~
A process of preparing a coffee concentrate with a concentration of 60% by weight, a process of heating and sterilizing this coffee concentrate at 129 to 134°C to an F ₀ value of 6 or more and cooling it, and a process of adding fragrance to this coffee concentrate. The process includes aseptically adding carbon dioxide gas to fill the aerosol container body to a volume of 50 to 80%, covering the valve unit of the aerosol container and crimping it to seal it, and injecting carbon dioxide into the aerosol container until the internal pressure of the container reaches 20%. A method for producing coffee in an aerosol container, comprising the step of enclosing coffee in an amount of 3 to 7 kg/cm ² in an equilibrium state at ℃. 4. Blending coffee bean extract components and a PH adjuster to prepare a coffee concentrate with a final product pH of 4.7 to 5.5 and a solid content concentration of 15 to 40% by weight. A process of heating and sterilizing this coffee concentrate at 129 to 134℃ to an F ₀ value of 6 or more and cooling it, and adding a fragrance to this coffee concentrate aseptically and adding it to the aerosol container body. A process of filling the aerosol container to a volume of 50 to 80%, a process of covering the aerosol container with the valve unit and crimping it to seal it, and filling the aerosol container with carbon dioxide gas to a pressure of 3 to 7 kg/cm ² at an equilibrium state of 20°C. A method for producing coffee in an aerosol container, characterized by comprising the step of enclosing coffee in an aerosol container so that 5. The method for producing coffee in an aerosol container according to claim 3 or 4, wherein the coffee concentrate is prepared by mixing coffee bean extracts having different concentrations.