JPH0340300Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention can measure the temperature of the contents using a temperature indicator, and by this, it is possible to always give the contents such as milk to the infant at the appropriate temperature. The present invention relates to a baby bottle whose temperature indicating material is stable even after repeated boiling water sterilization at high temperatures, for example at temperatures of 80° C. or higher, particularly at temperatures of 85° C. or higher, and can be used for a long period of time.

(b) Prior Art Conventionally, some baby bottles are provided with a temperature indicating material such as a temperature display means or a temperature measuring means for displaying the temperature of the contents, and others are not provided with a temperature indicator.

There are two types of temperature indicating materials: those provided so as to be exposed on the front or back surface of the wall portion of the temperature indicating material, and those provided so as not to be exposed on either the front or back surface.

In addition, some devices use thermochromic liquid crystal as a temperature indicating material.

There are two types of devices that use thermochromic liquid crystals: those that use one type of thermochromic liquid crystal, and those that use a mixture of multiple types of thermochromic liquid crystals.

As these thermochromic liquid crystals, cholesteric liquid crystals having cholesteric rings are used.

As described above, the following examples use cholesteric liquid crystal as a temperature indicating material for baby bottles.

That is, as disclosed in Japanese Utility Model Application No. 50-79685, cholesteric crystals that change at a temperature within the range of 30°C to 45°C are directly applied, or a tape coated with cholesteric crystals is bonded or bonded. However, a baby bottle has been proposed in which the surface of the liquid crystal is coated with a transparent protective film to display numbers or colors.

(c) Problems to be solved by the invention In conventional baby bottles that do not have a temperature indicator, the temperature of the contents is checked by drinking a small amount of the contents or touching them with your hands.

Therefore, the temperature of the contents is measured based on the body temperature and sensations of the person whose temperature is being measured, so errors may occur depending on the person's physical condition. This may result in infants being fed milk that is too hot or too lukewarm, which may cause the infant to stop breastfeeding.

Baby bottles equipped with a temperature indicating material usually use a temperature indicating material whose volume increases or decreases in response to temperature. It is conceivable to knead a temperature-indicating material into the resin.

However, when the temperature indicating material is applied to the outer surface, there is a problem that the temperature indicating material is lost due to peeling or peeling due to washing or the like.

In addition, when a temperature indicating material is applied to the inner surface, there is a problem that the temperature indicating material oozes out, which is undesirable from a sanitary standpoint.

Further, when kneading the temperature indicating material, problems such as peeling do not occur, but the problem of the temperature indicating material exuding remains.

However, these problems can be solved if the temperature indicating material is provided so as not to be exposed on either the front or back side of the wall of the baby bottle.

Furthermore, as disclosed in Japanese Utility Model Application No. 50-79685, when a thermochromic liquid crystal whose crystal structure changes, such as cholesteric liquid crystal, is used as a temperature indicating material, the color changes sequentially over a wide temperature range. Therefore, this thing is not only about whether the temperature of the contents is above or below a certain temperature, for example, the highest temperature that is considered to be drinkable, but also what is the highest and lowest temperature that is considered to be drinkable. This is preferable because it allows you to judge at a glance whether or not it is between.

Further, when using this thermochromic liquid crystal, one type of thermochromic liquid crystal may be used, or a mixture of multiple types of cholesteric liquid crystals may be used.

However, the baby bottle disclosed in Japanese Utility Model Application Publication No. 50-79685 has the following problems.

In other words, when using one type of liquid crystal, there is no liquid crystal that discolors in the temperature range corresponding to the preferred temperature of the contents (approximately 40 degrees Celsius or less), and the color play area where discoloration occurs is relatively narrow, so the content If the discoloration occurs near the desired temperature of the object, it will not be useful for determining whether the water temperature is appropriate during boiling water sterilization.

For this reason, a mixture of multiple types of thermochromic liquid crystals is usually used.

By the way, conventionally, the thermochromic liquid crystal used in baby bottles is a cholesteric liquid crystal having cholesteric rings, and this cholesteric liquid crystal having cholesteric rings has difficulty in chemical stability and cannot be sterilized by boiling or boiling water. In the case of baby bottles, which experience temperature changes relatively frequently, there is a problem in that the temperature indication becomes inaccurate due to deterioration of the liquid crystal.

For this reason, although several baby bottles having a temperature indicating material made of thermochromic liquid crystal provided on the wall of the baby bottle body have been proposed, they have not yet achieved marketability.

The present invention was developed in consideration of the above circumstances, and the thermochromic liquid crystal used as the temperature indicating material is composed of a mixture of multiple types of chiral nematic liquid crystals. It is possible to measure the temperature of the baby to see if it is at a suitable temperature for drinking, and this allows you to always give the contents such as milk at an appropriate temperature to the infant. To provide a baby bottle whose temperature indicating material is stable even after repeated boiling water sterilization at temperatures above .degree. C. and which can be used for a long period of time.

(d) Means for solving the problem The baby bottle according to the present invention is a resin baby bottle that uses a temperature indicator to measure the temperature of the contents, and in order to achieve the above purpose. In a baby bottle that uses a temperature indicator to measure the temperature of the contents, the temperature indicator is covered with a protective sheet and fixed to the wall of the bottle body, and the temperature indicator is a thermochromic liquid crystal display. The thermochromic liquid crystal is characterized in that it is composed of a mixture of multiple types of chiral nematic liquid crystals.

As the resin constituting the main body, known resins that are approved from the standpoint of safety and health are used.

Typical resins include polyesters such as polyethylene and polyethylene terephthalate, polypropylene, unplasticized polyvinyl chloride, polyvinylidene chloride, and polycarbonate, but among these, those using polyethylene terephthalate and polycarbonate are particularly safe. It is preferred from the viewpoint of hygiene and heat resistance, and also because of its low volumetric shrinkage.

Among these, especially those that change color sequentially over a wide temperature range, such as chiral nematic liquid crystals, are simply dependent on the temperature of the contents, for example, whether it is above or below the maximum drinking temperature. You can tell at a glance whether the temperature is between the highest and lowest temperature considered suitable for drinking.

As a temperature indicating material, it is required that the color change occurs in a temperature range that includes at least the temperature range that is considered to be suitable for drinking.

The most preferred temperature indicating material that changes color in this temperature range is a mixture of chiral nematic liquid crystals (eutectic mixture). , TM74B, TM75A, TM75B can be mentioned as an example.

In addition, the temperature indicating material is required to cause discoloration not only in the temperature range including the temperature range considered suitable for drinking, but also in the temperature range of boiling, boiling, and sterilization in boiling water.

Chiral nematic liquid crystal mixtures (eutectic mixtures) that change color in this temperature range include: (However, A can include a mixture consisting of CH ₃ CH ₂ CH (CH ₃ ) CH ₂ −).

Temperature indicating materials include, for example, numbers that indicate the temperature of discoloration, scales that indicate the amount of liquid, letters and symbols that indicate the appropriate temperature,
A picture or figure representing the child's face may appear or the color may change.

It is preferable to write scales or numbers using a temperature indicator because the temperature of the contents can be indicated by at least a portion of the temperature indicator regardless of the amount of liquid.

A feature of the present invention is that the temperature indicating material is covered with a protective sheet and fixed to the wall of the baby bottle body.

The thickness, size and shape of the protective sheet are not particularly limited as long as it can be fused or adhered to the wall of the baby bottle body.

By the way, when fixing the peripheral edge of the protective sheet to the wall of the baby bottle body by heat-sealing, if there is a risk that the temperature indicating material may be decomposed or otherwise altered by the heat during the heat-sealing, the protective sheet should be It is desirable to make the heat sealing point as large as possible, thereby keeping the heat-sealed area as far away from the temperature indicating material as possible.

In addition, in the present invention, covering and fixing the temperature indicating material to the wall of the baby bottle body with a protective sheet means covering the body of the baby bottle with a protective sheet in which the temperature indicating material is embedded or a protective sheet with the temperature indicating material printed or painted on the inside. (In this case, the material is attached to the wall after forming the baby bottle body.) Or, the temperature indicating material is attached to the sheet forming the baby bottle body using a protective sheet. This refers to manufacturing and fixing a baby bottle with a temperature indicating material by molding it, and by configuring it in this way, the purpose is to prevent the temperature indicating material from being present on the outer surface.

Here, the term "embedded" means that the temperature indicating material is present inside the protective sheet, excluding cases where the temperature indicating material is present on the outer surface.

Therefore, the temperature indicating material may be painted, printed, or sandwiched between the laminated resin materials (protective sheet),
Instead of this, various measures can be taken, such as providing a space within the protective sheet and enclosing a temperature indicating material in this space.

The method of fixing the temperature indicating material coated with a protective sheet to the baby bottle body is not particularly limited, but for example, the protective sheet may be formed of a laminated resin material and the laminated resin material may be laminated before or after lamination. In this case, it is possible to adopt a method of applying a temperature indicating material to the laminated surface or sandwiching a temperature indicating sheet.

In addition, when fixing the temperature indicating material to the baby bottle main body, a recess is formed in the main body, and the temperature indicating material is covered and fixed in the recess with a protective sheet as described above. The fixing location of the temperature indicating material may be formed so as not to protrude outward, that is, to be flush with the main body.

(e) Effect: When a drink such as infant milk, hot water, tea, or warm milk is poured into a baby bottle constructed in this way,
By observing with the naked eye whether the temperature indicator changes color or not, or what color it shows, it is possible to determine whether the temperature of the drink is at the appropriate temperature very easily. be.

Furthermore, since the outside of the temperature indicating material is covered with a protective sheet, there is no risk of it being worn away or peeled off during cleaning or the like.

Furthermore, since the temperature indicating material is provided within the surface of the baby bottle body, the temperature indicating material is isolated by the inner circumferential wall of the baby bottle, so there is no possibility that the temperature indicating material may seep into the contents and become mixed into the contents. It is extremely hygienic and there is no risk of damage.

In addition, chiral nematic liquid crystal is used as a temperature indicating material, and the chiral nematic liquid crystal is far more chemically stable than cholesteric liquid crystal having cholesteric rings, so it has high durability against repeated temperature changes. →40℃
It has the ability to accurately display the temperature even if the temperature change from → room temperature → boiling (100℃, 10 minutes) → room temperature is repeated over 500 times.

(f) Embodiments Hereinafter, embodiments of the present invention will be described in detail based on the drawings, but the present invention is not limited thereto.

FIG. 1 is a perspective view of a baby bottle according to an embodiment of the present invention, and FIGS. 2 1 to 2 3 are explanatory diagrams showing the procedure for manufacturing the baby bottle.

This baby bottle consists of a baby bottle main body 1 made of a laminated resin material made of a resin that is acceptable for safety and health reasons such as polyethylene terephthalate or polycarbonate, and a lid 3 that is screwed onto the mouth part 2 of the baby bottle. 4 is installed.

Further, a scale 5 indicating the capacity is provided on the peripheral wall of the baby bottle main body 1.

Reference numeral 6 represents a child's face made of a temperature-indicating material, and the temperature-indicating material 6 is applied to the inner surface of a protective sheet 7 made of polyethylene terephthalate, and the peripheral edge of the protective sheet 7 is fused using high frequency. It is fixed to the outer wall of the baby bottle main body 1.

The baby bottle main body 1 is manufactured, for example, as shown in FIGS. 2 1 to 2 3.

That is, as shown in FIG. 2, for example, when laminating two laminated resin materials 1a and 1b, one of them,
In this case, a protective sheet 7 with a temperature indicating material 6 coated on the inside is fixed to the outer surface of the outer resin material 1a by fusing its peripheral edge with high frequency, and then this laminated resin material 1a, 1b, and the laminated resin materials 1a and 1b are stacked together as shown in FIG.
The sheets are stacked and inserted between the blow molding molds 8a and 8b so as to cover their cavities, and then the molds are closed and the sheets are placed between the two laminated resin materials as shown in FIG. Form by injecting compressed air or steam.

In this case, the scale 5 is painted on the surface of the other laminated resin material 1b, and the outer resin material 1a is laminated on the side on which the scale 5 is painted.

After that, the molds 8a and 8b are opened and the baby bottle body 1 taken out is subjected to necessary processing such as deburring.
A baby bottle main body 1 shown in FIG. 1 is obtained.

After that, the molds 8a and 8b are opened and the baby bottle body 1 taken out is subjected to necessary processing such as deburring.
A baby bottle main body 1 shown in FIG. 1 is obtained.

As the temperature indicating material 6, a reversible temperature indicating material 6 is used, and in particular, a mixture of cholesteric liquid crystal having no cholesteric ring, that is, a chiral nematic liquid crystal is used.

This chiral nematic liquid crystal mixture is manufactured in the UK
BHD Chemicals TM74A, TM75A,
The ingredients are TM74B containing 50% racemic form of TM74A and TM75B containing 50% racemic form TM75A, and the blending ratio is set as follows.

That is, this mixture is obtained by mixing mixture A, which is a mixture of TM74A and TM75A, and mixture B, which is a mixture of TM74B and TM75B. Find the blending ratio of TM74A and TM75A that will give you the desired color play area.

The color play range of this A mixture is determined from Figure 4, and by mixing TM74B and TM75B in the same ratio as the mixing ratio of TM74A and TM75A, the color play range of A corresponding to the required temperature range is determined. Determine the mixing ratio of the mixture and B mixture.

This color play range is based on the mixing ratio of B mixture.
0.3 for every 10% increase in B mixture between 10 and 50%
°C spread, and for every 10% increase above 50%, the temperature range in which color play occurs doubles.

For example, when making a chiral nematic liquid crystal mixture where color play occurs between 22°C and 40°C,
From Figure 3, we find the mixing ratio of mixture A, where color play begins at 22°C. TM74A:TM75A=
28.5:71.5, so with this mixing ratio TM74A and
Mix TM75A to make A mixture. in the same way
TM74B and TM75B are mixed at a ratio of 28.5:71.5 to make B mixture, and this is added to A mixture as follows.

According to Figure 4, the color play range of Mixture A with this mixing ratio is approximately 0.8°C.
By adding 50%, the color play range is 0.3×
5 = 1.5℃ expanded to 2.3℃.

If the mixing ratio of B mixture is further increased by 10%, it will be 2.3 x 2 = 4.6℃, and if it is increased by 20%, it will be 4.6 x 2 = 9.2.
If ℃ increases by 30%, it becomes 9.2 × 2 = 18.4℃ and 40−
You get a color play range that covers the range 22=18℃.

That is, the mixing ratio of mixture A and mixture B may be 30:70.

In the above example, the temperature of the contents can be measured in the range of 22 to 40°C, but the temperature measurement range can be further expanded or reduced by changing the mixing ratio of the chiral nematic liquid crystal mixture. It is possible to

Furthermore, if a chiral nematic liquid crystal mixture with the following components is used, temperature measurement is possible in the temperature range of 39°C to 97°C.

That is, the mixture of chiral nematic liquid crystals is (However, A is _CH3CH2CH ( _{CH3 ) CH2-} ) The molar ratio of each of these components is 0.24:0.16:0.32:
A mixture in the ratio of 0.15:0.07:0.06 exhibits the following color play between 39°C and 97°C.

Red 39.0℃ Yellow 41.0 Green 43.0 Turquoise 43.3 Blue 43.7 Blue 58.7 Green 60.0 Yellow 67.0 Red 69.0 (Smectic phase - cholesteric phase conversion) Red 74.5 Yellow 74.8 Green 77 Blue 85 Indigo 90 Indigo/Purple 97 This temperature indicator material According to 6, the temperature at which drinking is best, for example,
The optimal temperature is 39.0℃, which is red, but the temperature is 41, which is the highest temperature for drinking.
℃ respectively a yellow color is observed.

Therefore, depending on the color, it is possible to measure the temperature of the contents to see if they are ready for drinking or at a high temperature within the drinking range. There is no mistaking the temperature because the perceived temperature is clearly different from the drinking temperature of 67.0-74.8℃, where a similar yellow or red color is observed.

Furthermore, since the temperature indicator 6 changes color to blue at 85°C and indigo at 90°C, it is possible to determine whether the temperature has reached the temperature required for boiling water disinfection (e.g. 80°C) or higher. It is possible to determine whether safe disinfection is being performed, and whether or not heating is being performed more than necessary, thereby eliminating wasted energy due to excessive heating.

In order to measure the temperature in the disinfection temperature range and the beverage temperature range in this way, it is not necessarily necessary to be able to measure the temperature in the intermediate temperature range. Therefore, two temperature indicating materials 6 may be provided separately, the temperature indicating material 6 whose color play range covers the disinfection temperature range and the temperature indicating material 6 whose color play range covers the beverage temperature range.

Here, the child's face is formed by the temperature indicating material 6, but the temperature indicating material 6 may display, for example, numbers indicating the discoloration temperature, letters or symbols indicating the appropriate temperature, or may have different colors. It may be formed so that it changes.

When a beverage such as infant milk, hot water, tea, warmed milk, etc. is poured into the body 1 of the baby bottle configured as described above, the portion of the temperature indicator 6 that approaches the beverage changes depending on the temperature of the beverage. It changes color and takes on a color that corresponds to its temperature. By observing this color with the naked eye, it is possible to determine whether the temperature of the beverage is at an appropriate temperature each time.

In the present invention, a mixture of the above chiral nematic liquid crystals is used as the temperature indicating material 6, and this is applied to a baby bottle.Room temperature → 40℃ → Room temperature → Boiling (100℃, 10 minutes) →
Although the temperature change of room temperature was repeated over 500 times,
The temperature can be displayed accurately even after 500 times.
Moreover, even after repeating this temperature change, no change was observed in the temperature indicating material 6.

Further, when the water in the baby bottle was analyzed after the temperature change was repeated in this way, no oozing of the temperature indicating material 6 was found, which was preferable from a sanitary standpoint.

Since the outside of the temperature indicating material 6 is covered with the protective sheet 7, there is no fear that the temperature indicating material 6 will peel off or wear out and peel off during cleaning etc.
Since the temperature indicating material 6 is isolated by the inner circumferential wall, there is no fear that it will leak into the contents and be hygienic.

(g) Effects of the invention As described above, according to the invention, the temperature of the contents can be easily measured at a glance by observing the presence or absence of discoloration of the temperature indicating material fixed to the main body or its color. As a result, it is possible to always give milk, hot water, tea, etc. to the infant at the appropriate temperature, and since the temperature indicator is formed from a chiral nematic liquid crystal mixture, boiling water sterilization can be repeated at temperatures above 80°C, especially above 85°C. Not only is it stable, but its temperature can also be measured, making it highly reliable.

In addition, since the temperature indicator material is not exposed on the surface, there is no fear that the temperature indicator material will peel off, flake off, or ooze out, and the temperature indicator effect can be obtained for a long period of time.
Moreover, it has the effect of being extremely hygienic.

Furthermore, when the temperature indicating material is composed of a chiral nematic liquid crystal mixture, the temperature indicating material is prevented from deteriorating over a long period of time even when subjected to repeated periodic or irregular temperature changes. The effect of accurate temperature measurement can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a baby bottle according to an embodiment of the present invention, FIGS. 2 1 to 2 3 are explanatory diagrams showing the process of manufacturing the baby bottle, and FIG. 3 is a A characteristic diagram showing the relationship between the mixing ratio of the mixture and the color play area and phase. FIG. 4 is a characteristic diagram showing the relationship between the mixing ratio of the A mixture and the color play area. In the figure, 1 is a baby bottle main body, and 6 is a temperature indicator.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) In a baby bottle that uses a temperature indicator to measure the temperature of the contents, the temperature indicator is covered with a protective sheet and fixed to the wall of the bottle body. ,
A baby bottle characterized in that the temperature indicating material is made of a thermochromic liquid crystal, and the thermochromic liquid crystal is made of a mixture of a plurality of types of chiral nematic liquid crystals. (2) The above chiral nematic liquid crystal mixture is (However, A is _CH3CH2CH ( _CH3 ) _CH2- ) _The baby bottle according to claim 1, which is a registered utility model.