JP2836017B2 - Method for producing low viscosity tomato juice - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a low-viscosity tomato juice, and more particularly, to a lycopene content similar to that of a conventional product, and a remarkably insoluble solid content (pulp material, hereinafter the same) as compared with a conventional product. The present invention relates to a method for producing an easy-to-drink tomato juice having a low content and a low viscosity.

[0002]

2. Description of the Related Art Conventionally, as a method for producing tomato juice, generally, tomato is crushed or cut, oxygen is inactivated by heating, and then squeezed by a centrifugal juicer, for example, a pulper or a finisher. ing. However, such a conventional method has a drawback that the obtained tomato juice has a high viscosity, so that it has a strong sense of resistance when drinking and is difficult to drink. The viscosity of tomato juice is greatly affected by the insoluble solids contained therein, the higher the content of insoluble solids, the higher the viscosity. Therefore, it is conceivable to crush or cut the tomato and squeeze it with a squeezing-type squeezing machine, for example, a filter press, in order to remove as much insoluble solids as possible to obtain a tomato juice with low viscosity and easy to drink. In fact, the production by such a method results in a tomato juice having a low viscosity and easy to drink. However, when tomato juice is produced by such a method, lycopene is removed together with insoluble solids, so that it does not exhibit the original color tone of tomato juice. There is a problem that lycopene is removed.

As another method for producing vegetable juice including tomato juice, a method of cutting vegetables and squeezing them with a squeezing-type squeezing machine without grinding (JP-A-4-5890)
9), a method of crushing or cutting vegetables and subjecting them to a biaxially different-direction rotating type extruder to simultaneously perform enzyme deactivation and squeezing by heating (Japanese Unexamined Patent Publication No. 5-328949); A method of pressurizing and squeezing with a hydraulic press (JP-A-6-245746) has been proposed. According to these conventional methods, depending on the squeezing machine used, it is possible to obtain an easy-to-drink tomato juice with a correspondingly lower viscosity than the conventional general method described above. However, even in these conventional methods, they have the same lycopene content as in the case of the above-mentioned conventional general method, and have significantly reduced the insoluble solid content and lower the viscosity than in the case of the above-mentioned conventional general method. There is a disadvantage that it is not possible to stably produce easy-to-drink tomato juice.

[0004]

The problem to be solved by the present invention is that the tomato juice obtained in the prior art has a high insoluble solids content and a high viscosity, which makes it difficult to drink. It is a tomato juice having a lycopene content similar to that of such a highly viscous tomato juice, and it is difficult to stably produce an easy-to-drink tomato juice having a remarkably low viscosity.

[0005]

Means for Solving the Problems Thus, the present inventors have
As a result of studying to solve the above problems, tomato is crushed or cut, and provided to an extruder on which a screen having a predetermined hole diameter is mounted as it is without heating,
It has been found that squeezing under predetermined conditions is correct and suitable.

That is, according to the present invention, the tomato is crushed or cut, and the pore size of the screen is reduced to 0. 0 without heating.
A low-viscosity tomato juice which is subjected to an extruder having a pressure of 0.10 to 20 kgf / cm ² and squeezed under conditions satisfying the following formula (1). Pertaining to the method of manufacturing.

[Formula 1] 0.10 <log (P / L) <2.0 {In the formula 1, P: outlet pressure (kgf / cm ² ) L: screen hole diameter (mm)}

In the present invention, tomato is crushed or cut and provided to an extruder. The crushing or cutting is performed to such an extent that the size of the crushed or cut material is slightly smaller than the pitch of the extruder screw as described later. This is because the crushed or cut tomato products are supplied to the extruder and the juice is squeezed by the extruder smoothly.

In the present invention, the tomato is crushed or cut, and is directly supplied to the extruder without heating. When the tomato is crushed or cut, and the enzyme is inactivated by heating and then squeezed, the serum viscosity derived from pectin increases, and as a whole, a highly viscous tomato juice is obtained. In the case of tomato juice with a high insoluble solid content obtained by the above-mentioned conventional general method, it is necessary to increase the viscosity of the serum to prevent the separation of the insoluble solid as much as possible and to improve the appearance, and therefore, the juice is required. It is necessary to deactivate the enzyme by heating before. However, in the present invention, to obtain tomato juice with a reduced insoluble solid content,
It is not necessary to consider the prevention of separation of insoluble solids, and tomato juice with reduced viscosity is obtained in the first place.
Higher serum viscosities are rather disadvantageous.

In the present invention, the tomato is crushed or cut as described above, and is directly subjected to squeezing without exposing to an extruder. The extruder used is a rotatably supported screw, a screen mounted around the screw, and one end of the screen for supplying crushed or cut material between the screw and the screen. Side, an outlet provided on the other end side of the screen for discharging squeezed residue of crushed or cut material from between the screw and the screen, and an opening degree of the outlet is adjusted. And a lid attached to the outlet for the cleaning. Such an extruder is a uniaxial rotating type in which one screw is supported,
Two-axis co-rotating type in which two screws that mesh with each other and rotate in the same direction are supported, and two-axis different-direction rotation in which two screws that mesh with each other and rotate in different directions are supported Among them, a biaxially different direction rotating type extruder is preferable (Japanese Patent Laid-Open No. 6-1905).
94, USP 5,417,155).

The extruder has a hole diameter of 0.05 to 1.0.
A screen with a screen of 0.1 mm is used.
It is preferable to use a screen on which a screen of 10 to 0.50 mm is mounted. In relation to the squeezing conditions described below, while maintaining a reasonable squeezing rate, having the same level of lycopene content as the conventional product, and significantly lowering the viscosity by lowering the insoluble solid content significantly than the conventional product. This is for obtaining a tomato juice that is easy to drink in a stable manner.

In the present invention, the tomato is crushed or cut, and is directly subjected to the above-mentioned extruder without heating, so that the outlet pressure is 0.10 to 20 kgf / cm ² , preferably 1.0 to 10 kgf / cm ^2. And squeezing the juice under the condition that the relationship between the pore diameter of the screen and the outlet pressure satisfies the above formula 1. The outlet pressure in this case means the pressure applied to the juice residue that has substantially finished juice between the screw and the screen immediately before being discharged from the outlet. When the outlet pressure is less than 0.10kgf / cm ^2, squeezing ratio is deteriorated, when the outlet pressure conversely exceeds 20 kgf / cm ^2,
As a practical matter, smooth juice operation cannot be performed. Even if the hole diameter of the screen is in the range of 0.05 to 1.0 mm and the outlet pressure is in the range of 0.10 to 20 kgf / cm ² , if the relationship between the two does not satisfy Equation 1, the conventional It is impossible to obtain a tomato juice which has the same level of lycopene as the product and has a significantly lower insoluble solid content than the conventional product, and has a low viscosity and is easy to drink.

According to the present invention, it is possible to stably obtain an easy-to-drink tomato juice having the same level of lycopene content as that of the conventional product, having a significantly lower insoluble solid content than the conventional product, and having a reduced viscosity. . Lycopene is present in cells that form insoluble solids. To simply remove insoluble solids, for example, squeeze with a filter press,
Although it is possible to remove insoluble solids, lycopene is also removed. However, as described above, the tomato is crushed or cut, and subjected to an extruder having a pore size of 0.05 to 1.0 mm as it is without heating, and squeezed under predetermined conditions. Cells that form solids are primarily damaged by crushing, and lycopene migrates into the juice from the damaged area. As a result, tomato juice having the same lycopene content as the conventional product can be obtained. On the other hand, cells that form insoluble solids are only damaged, and the insoluble solids themselves are not miniaturized, so that these insoluble solids do not pass through the screen and remain as juice residues at the exit of the extruder. Is discharged from As a result, an easy-to-drink tomato juice with significantly reduced insoluble solid content and lower viscosity than conventional products can be obtained.

[0013]

【Example】

Example 1 Tomatoes were washed, sorted and crushed with a crusher.
Without heating the crushed material, the pore size is 0.10
The sample was supplied to a biaxially different-direction rotating type extruder equipped with a screen of mm, and squeezed at an outlet pressure of 5.0 kgf / cm ² , and therefore, log (P / L) = 1.7 in the formula 1 described above. The squeezing rate (wt%), insoluble solid content (wt%), viscosity (cp at 25 ° C.), soluble solid content (wt%) and lycopene (mg%) of the obtained squeezed liquid (tomato juice) The measurement or analysis results are shown in Table 1, and the sensory evaluation results are shown in Table 1.

Examples 2 to 9 and Comparative Examples 1 to 6 In the same manner as in Example 1, juice was squeezed under the conditions shown in Table 1 or Table 2. The resulting juice (tomato juice)
Are shown in Table 1 or Table 2.

[0015]

[Table 1]

[0016]

[Table 2]

In Tables 1 and 2, sensory evaluation: 25 males and 25 females, a total of 50
The tomato juice of Example 2 and the tomato juice of each of the other examples were compared at two points, and the sensory evaluation of which was preferable as the tomato juice was shown. Comparative Examples 3 and 4: Juice could not be squeezed Comparative Example 5: Poor squeezing rate

Comparative Example 7 Tomatoes were washed, sorted, and crushed with a crusher.
After heating the crushed product to 75 ° C. to inactivate the enzyme, the crushed product was provided to a pulper equipped with a screen having a pore size of 0.50 mm,
Juice was squeezed at a rotation speed of 800 times / min and an outlet pressure of 0 kgf / cm ² .
The result about the obtained juice (tomato juice)
The squeezing rate was 85% by weight, the insoluble solid content was 0.5% by weight, the viscosity was 23 cp, the soluble solid content was 5% by weight, the lycopene content was 10mg%, and the sensory evaluation was 2 persons.

Comparative Example 8 The squeezed liquid (tomato juice) obtained in Comparative Example 7 was centrifuged at 3,000 times / minute × 10 minutes, and the upper liquid was collected. The collected liquid had an insoluble solid content of 0.2% by weight, a lycopene content of 3 mg%, and a sensory evaluation of 5 persons.

Comparative Example 9 Tomatoes were washed, sorted, and cut with a dicer to a target of 3 mm square. The cut material was put into a filter cloth, and was subjected to a press juicer, and was juiced at a pressure of 5 kgf / cm ² . The obtained juice (tomato juice) had an insoluble solid content of 0.1% by weight, a lycopene content of 3 mg%, and a sensory evaluation of 3 persons.

[0021]

As is apparent from the above description, the present invention described above has a drink having a lycopene content comparable to that of the conventional product, and having a significantly lower insoluble solid content than the conventional product and having a lower viscosity. There is an effect that an easy tomato juice can be stably obtained.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-328949 (JP, A) JP-A-6-190594 (JP, A) JP-A-54-135286 (JP, A) 84891 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) A23N 1/00 A23L 2/02 A23L 2/04

Claims (5)

(57) [Claims] 1. A tomato is crushed or cut and subjected to an extruder having a screen having a hole diameter of 0.05 to 1.0 mm without heating, and an outlet pressure of 0.10 to 20 kg.
A method for producing a low-viscosity tomato juice, comprising squeezing under the conditions of f / cm ² and satisfying the following formula 1. [Formula 1] 0.10 <log (P / L) <2.0 {In the formula 1, P: outlet pressure (kgf / cm ² ) L: screen hole diameter (mm)} 2. A screen having a hole diameter of 0.10 to 0.50.
The method for producing a low-viscosity tomato juice according to claim 1, which is supplied to an extruder having a diameter of mm. 3. The method for producing low-viscosity tomato juice according to claim 1, wherein the juice is squeezed at an outlet pressure of 1.0 to 10 kgf / cm ² . 4. The method for producing a low-viscosity tomato juice according to claim 1, wherein the juice is squeezed under a condition that the log (P / L) satisfies 0.30 to 1.5. 5. The method for producing low-viscosity tomato juice according to claim 1, wherein the extruder is a biaxially different-direction rotating type extruder.