TW201244709A - Palatable thermal insulation baby bottle - Google Patents

Abstract

A palatable thermal insulation baby bottle, including a bottle body made of glass material, one end of the bottle body is the bottle mouth, for a cap or a nipple to fix on. The bottle body has an inner bottle body and an outer bottle body, and the inner bottle body has a hollow liquid storage space in its interior. The bottle body has a vacuum layer between the outer bottle body and the inner bottle body. When necessary, a mesh or full-covering insulation layer may be further disposed in the vacuum layer on at least one of the outer peripheral wall of the inner bottle or the outer peripheral wall of the outer bottle body. The thermal insulation baby bottle can reduce and slow down the heat conduction and convection by the abovementioned bottle sandwich structure; therefore, facilitating to check the amount of liquid in the liquid storage space from the outside and to have a desired effect of thermal insulation for a certain period of time.

Description

201244709 VI. Description of the invention: [Technical field of invention] A bottled container 'especially a kind of insulated bottle" [First technique] As shown in 'China Patent Gazette, Bulletin No. M359325, "Insulation Bottle", its system & The heating bottle is provided with a heating coil for the bottle of the insulated bottle, and is covered with a protective layer outside the heating coil, and a temperature control device is arranged at the bottom of the bottle body, and the temperature control device is electrically connected with the heating coil. And when the temperature of the bottle body is detected to be lower than a standard temperature, the heating coil is driven to heat the bottle body to a standard temperature. It has been found that the bottle container in the prior art can ensure the emulsion contained in the bottle, especially breast milk, milk, etc., can maintain a constant temperature, and often has a heating element in the bottle body, such as the heating coil in the previous case, In order to maintain the temperature at a fixed temperature, a temperature control device is additionally provided on the bottle body to detect that the temperature of the bottle body is lower than a standard temperature, that is, the heating coil is driven to the standard temperature of the bottle body, and the temperature sense is obtained. The test module must be electrically connected to the power supply module to supply the power required for the heating coil and the temperature control device, and the heating coil, the temperature sensing module and the power supply module can extend the emulsion in the bottle at a fixed constant temperature. However, it also greatly increases the processing and assembly process and manufacturing cost of the bottled container. ° Also, a bottled container with a heating function, the bottle body must be equipped with a heating element, and the heating element, the temperature control device and the device must be electrically connected between the power supply modules of the temperature control device housing to control the heating. 'Because the most basic function of the bottle itself is to hold the emulsion, in the case of a power supply mode _ _ avoidable to have a dangerous age of electric shock, it is impossible to be 100% safe. According to World Health __〇) advocate the first six baby _ breast milk best, for the baby ^ said 'mother milk is the most perfect food, it contains the nutrients required by the baby silk, especially reduced, contains high concentration The antibody and protein f not only do not cause a burden on the kidneys, but also protect the digestive tract from infection, promote the discharge of fetuses, and even reduce the chance of yellow plague 201244709 in the future. In fact, for other animals, it is usually difficult to survive without drinking colostrum. Similarly, for the health of newborn babies, colostrum is definitely the most important, most effective, and has no side effects. Agent "vaccination". To this end, for newborn newborns, the design of the bottle for the mother's milk becomes very important, because the newborn needs to be fed every three hours, and some mothers of premature babies, or mothers who cannot feed the baby for some reason. , you must first squeeze the breast milk into the bottle, then feed the baby, and the amount of breast milk is sometimes disproportionate to the amount of the baby, or the breast milk feeding period and the baby's milk time are different. 'Mother may take the time to squeeze first. Breast milk is squeezed out so that it is necessary to refrigerate or cool the breast milk at this time; East, heat it again during use. According to the literature (Ovesen L, Jakobsen J, Leth T, Reinholdt J. The effect of microwave heating on vitamins B1 and E, and linoleic and linolenic acids, and immunoglobulins in human milk. Int J Food Sci Nutr. 1996

Sep; 47(5): 427-36), if the temperature of the milk reaches 77 degrees Celsius, the function of the immunoglobulin is completely deactivated. Another research literature (Quan R, Yang C, Rubenstein S, et al. Effects of microwave radiation on anti-infective factors in human milk. Pediatrics. 1992 Apr; 89 (4 Pt 1): 667-9.) When the temperature of the microwave-treated milk reaches 72 to 98 degrees Celsius, the antibody function of the mother's milk is completely lost. Even after microwave treatment at a temperature of 2 〇 25 ° C, a large proportion of immunoglobulins against coliforms are lost. Therefore, if breast milk is refrigerated or frozen and then warmed, the thermodynamic effect will often cause serious damage to the most precious antibodies, proteins and vitamins in colostrum. This destroys the complacable ingredients of breast milk, and also loses the meaning of feeding breast milk. This is the problem that love mothers want to breastfeed, which can't be solved. SUMMARY OF THE INVENTION In view of the above, the inventors have improved the structure of the general-purpose H-containing structure for containing liquids, especially breast milk and milk, and provided a palatable insulated bottle for the newborn food, so that the mother can squeeze out the breast milk. It can be kept for a preset period of time without additional facilities. When it is used, it does not need to be refrigerated or 201244709 to heat up. It does not destroy the valuable ingredients of breast milk. It can feed the baby directly, so that the baby can suck from the first mouth to the last one, which is the most suitable. The temperature is to achieve the true meaning of using breast milk to feed the baby, which is the main spirit of the present invention. Another object of the present invention is to provide a palatable insulated bottle for feeding newborns, which can be used to brew milk or nutrients in warm water, regardless of the temperature, in the spring, summer, autumn and winter, from the first to the last when the baby is feeding. A mouthful of milk or nutrients can be kept at a palatable temperature. Another object of the present invention is to provide a palatable insulated milk bottle for children, which can reduce the heat conduction and convection by vacuuming the transparent bottle body interlayer, and can directly use the transparency of the glass material to clearly see the inside. The state and residual amount of the liquid in the bottle body for the user to observe the safe and hygienic state of the liquid and to evaluate the remaining eating time of the infant. In order to achieve the above object, the specific technical means is as follows: the palatable insulated bottle comprises a glass bottle body, the bottle body has a bottle mouth at one end, and a bottle mouth connected to the outside is provided at the mouth of the bottle The bottle body has an inner bottle body and an outer bottle body, and the inner bottle body has a hollow liquid storage space therein, and the bottle body has a hollow liquid storage space inside the bottle body. Between the outer bottle body and the inner bottle body is a vacuumed bottle body interlayer, the heat insulating milk bottle is used to relieve heat conduction and convection by the bottle body interlayer to reach the liquid in the liquid storage space for a certain period of time The palatable insulation effect. After the outer bottle body and the inner bottle body are integrally formed, the bottle body interlayer is drawn into a vacuum state. It also includes a thermal insulation sheet placed on the mouth of the bottle for better insulation. The fox is the one who has to be smelted into a body, and the bottle is sandwiched into a vacuum state. The period of time referred to is 60 minutes or less. The liquid referred to therein includes breast milk, milk, boiling water, nutrient solution or juice. The mouth of the bottle is slightly the same size as the inner diameter of the bottle. The bottle body is provided with a partial or full thermal insulation film on the outer (four) surface of the bottle body. 201244709 The insulating film layer can be a completely transparent insulating film layer or a mesh, and the mesh shape is one of a dot, a mesh 4 shape, a trademark pattern, a character and a cartoon. According to the technical means provided by the present invention, the effective time for the infant to eat in the bottle is usually about ten minutes, and the time for the mother to squeeze the breast milk is about twenty minutes. If the mother feeds the baby after the breast bottle is finished, the baby is fed for a short time. The insulated glass bottle body maintains the emulsion in the bottle at a certain palatable temperature range, so that the infant can maintain a palatable and nutritious temperature from the first to the last mouth of the drink. Furthermore, the glass bottle does not have a plastic bottle, which has the effect of environmental hormones, and the bottle itself can be sterilized by high temperature. The use is safe and hygienic and the bottle body does not have any conductive elements and there is no danger of electric shock. The specific embodiment employed in the present invention will be further described by the following examples and accompanying drawings. [Embodiment] Referring to Figures 1 to 3, there are shown a perspective view, a perspective exploded view and a schematic cross-sectional view of a first embodiment of the present invention. The insulated milk bottle 1 has a double-layered and hollow bottle body 1 〇 A top cover 20 is provided above the 10th. The bottle body ίο - the end is formed by shrinking the radius - the mouth portion 101, and the bottle body 1 has a -1G2 at the mouth of the bottle portion - and the bottle mouth 1G2 is removed from the outside, and is provided at the outer side of the bottle mouth portion (9) - a screw convex portion The pattern (10) is used for fixing the top cover 20. The bottle body 10 has an inner bottle body 11 and an outer bottle body 12. The inner surface U has a hollow liquid storage space U0 inside, and the outer bottle body 12 is disposed outside the inner bottle body n as shown in FIG. The bottle body 10 is provided with a bottle body interlayer 13 between the outer bottle body 12 and the inner bottle body 11. In this embodiment, the bottle body ίο is made of glass, and the inner bottle body u and the outer bottle body 12 are joined to each other to make the body interlayer 13 a dense-- (four), and formed at the bottom of the outer face 12 The vacuum sealing protrusion will take the (four) wire u into the empty state, and the heat insulation effect of the liquid of the inner bottle body 11 is obtained for a period of time. The top cover 2 of the insulated milk bottle 1 has a cover body 2, the cover body η corresponds to the screw ridge 1〇3, and a screw 眺 2U is provided on the inner side thereof, and the top cover 20 is screwed with the screw embossing by the screw 211. 1〇3, the top cover 20 is screwed to the mouth portion 1〇1 of the bottle body 10 at 201244709. The cover body 21 is further provided with an opening 22 at the top surface for a hollow mouth suction member, and the mouth suction member 23 is inserted into the opening 22 and fixed to the top surface of the cover body 21, and is fixed on the top cover 2 After the bottle mouth portion 101 of the bottle body, the inside of the mouth suction member 23 passes through the bottle mouth 1〇2 of the bottle body 1 to communicate with the liquid storage space 110 inside the bottle body 1 , and the mouth suction member 23 is An opening 231 communicating with the outside is provided at the top end. In actual use, the liquid can be poured from the bottle mouth 1〇2 of the bottle body into the liquid storage space 110 in the inner bottle body U. After the screwing top cover 2〇, the liquid storage space 11 The mouth suction member 23, so that the liquid in the liquid storage space 110 can flow into the mouth suction member 23 through the mouth 1b, and the liquid of the heat preservation bottle can be sucked out from the outside by the opening 231. Here, it should be noted that the liquid 疋 refers to emulsion, milk, boiling water, juice, etc., and is generally referred to as liquid for convenience of explanation. In the design of the present invention, the effective time for the infant to eat, for example, 3 〇 6 〇 minutes - the time of the gorge glass double-layer bottle 1G insulation, and by vacuuming the bottle inflammatory layer 13 To slow down the heat conduction and job 'j_ can see the contents of the bottle #, instead of the conventional thermos bottle for the long-term insulation, the bottle of silver can not see the contents of the bottle, so the insulated bottle 1 of the present invention by vacuum The bottle interlayer u is used to slow the conduction and convection of the heat so that the temperature of the liquid in the reservoir space 110 remains at the temperature suitable for feeding the baby during the above period of time (not a long-lasting thermostat), so that the infant is eating The liquid from the first mouth to the last mouth of the drink can be kept at the optimum temperature (ie, equivalent to the human body temperature) without additional heating, which is a major feature of the design of the present invention. Moreover, since the bottle body 10 is made of a transparent glass material, the state and residual amount of the liquid contained in the liquid storage space 110 in the inner bottle body 11 can be clearly seen, so that the user can observe the safety and hygienic state of the inner bottle body liquid. And evaluate the remaining eating time. The following is an example of the temperature change in the liquid storage space 110 in the inner bottle body H containing water or breast milk at different external ambient temperatures, and measuring the temperature change of the liquid in the insulated bottle bottle within 30 minutes. 'The bottle structure designed to highlight the invention can keep the temperature of the liquid in the bottle at the optimum mouth during the effective time of eating the baby: 201244709 Experimental example 1 cold room 8 °c, water volume 30CC 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes, 25 minutes, 30 minutes, general bottle ΓΟ 37 32 28 23 20 18 15 Insulation bottle rc) 37 35 33 31 29 26 24 40 35 30 25 20 15 10 5 0 : ----------------------------------------- , : 1 t 1 1 1 1 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 2 Cold room 8 ° C, water volume 60 cc 〇 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (° C) 37 33.5 30 27 24 22 19 Insulated bottle (°C) 37 36 34 32 30 28.5 27 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 8 201244709 Experimental Example 3 Cold room 8 ° C, water volume 90 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°c) 37 33 31 28 26 24 22 Insulated bottle (°c) 37 36 34 33 32 31 29

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 4 Cold room 8 ° C, water volume 120 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 34 31 29 27 25 23 insulated bottle (°C) 37 36 34 33 32 31 30

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 201244709 Experimental Example 5 Cold room 8 ° C, breast milk il 30cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 31 26 23.5 19.5 17 16 Insulated bottle (°C) 37 33 30.5 29 27.5 27 26 40 35 30 25 20 15 10 5 0 : Sa---- : Normal milk + insulated bottle. C) :_| Bottle. C) Three 1 II II 1 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 6 Cold room 8 ° C, breast milk volume 60 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (° C) 37 33 30 27 25 23 21 Insulation bottle (°C) 37 36 34.5 33 31.5 29 28 40 35 30 25 20 15 10 5 0 : ~~~-- + Normal bottle (.C) j + insulated bottle (. C) : • 1 1 1 1 1 1 1 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 10 201244709 Experimental example 7 cold room 8 ° C, breast milk i 1: 90cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 Minute 30 minutes General bottle (°C) 37 34 30.5 27.5 25 23.5 22 Insulated bottle (°C) 37 36 35 33 31.5 30 29 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 8 Cold room 8 ° C, breast milk it 120cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 35 31 28.5 26.5 24.5 22.5 Insulated bottle (°C) 37 36 35 34 33 32 31 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 201244709 Experimental Example 9 Cold room temperature 20 ° C, water volume 30 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 32 28 26 24 22 20 Insulated bottle (°C) 37 35 33 31 29 28.5 28 40 35 30 25 20 15 10 5 0 : One-Μ Factory + Insulation Groom ECC) SCC) Three " III III 0 minutes 5 minutes 10 minutes 15 Minute 20 minutes 25 minutes 30 minutes Experimental Example 10 Cold room temperature 20 ° C, water volume 60 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 34 31 28.5 26 23 21 Insulation bottle (° C) 37 36 34 31 30.5 30 29

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 12 201244709 Experimental Example 11 Cold room temperature 20 ° C, water volume 90 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°c) 37 34 32 29 26 24 22 Insulated bottle (°c) 37 36 35 34 32.5 31 30 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 12 Cold room temperature 20 ° C, water volume 120 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 34 32 29.5 27 24.5 22.5 Insulated bottle (°c) 37 36 35 34 32.5 32 31.5 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 13 201244709 Experimental Example 13 Room temperature 20 ° C, breast milk amount 30 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°c) 37 32 29 26 24 22 20 Insulated bottle (°c) 37 36 35 33 32 31 30 40 35 30 25 20 15 10

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes Experimental Example 14 Room temperature 20 ° C, breast milk amount 60 cc 0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes General bottle (°C) 37 33 30.5 28 26.5 25 23 Insulated bottle (°c) 37 36 35 34 33 32.5 32

0 minutes 5 minutes 10 minutes 15 minutes 20 minutes 25 minutes 30 minutes 201244709 Experimental Example 15 0 minutes 5 minutes General bottle Ct) 37 33.5 Insulated bottle (°c) 37 36 15 minutes

20 minutes 25 minutes 30 minutes 27 25.5 32.5 33.5 33

Experimental Example 16 0 minutes 5 minutes General bottle (°C) 37 34 Thermos bottle (°c) 37 36.5 31 *36 Breast milk volume 120cc ‘clock 20 minutes 25 minutes 30 minutes 29.5 28 27 ~~25 35 34 33.5 33

Furthermore, in the design of the present invention, the bottle body 10 is made of glass material, and the plastic bottle body has the influence of environmental hormones, and the glass bottle body 10 itself can be sterilized by high temperature, and the liquid storage amount in the liquid storage space 110 can be externally seen through. The amount of 'comparable to the plastic bottles commonly found on the market is more sanitary 201244709 safe. Further, the glass bottle body 10 of the first embodiment can be additionally rotated like the top cover 20A shown in Figs. 4 and 5, and the top surface of the cover 21A of the top cover 20A is closed, and the cover body 2u corresponds to the spiral ridge. A screw-shaped 211A is disposed on the inner side thereof, and the top cover gauge is also fixed by the screw-fixing screw embossing 103 to fix the top cover 20A to the bottle mouth portion 1〇1 of the bottle body 1〇. When only _ _ U _ liquid _11 () is simply recorded, it is fixed to the mouth portion 1 〇 1 of the bottle body 10, and can be placed as shown in Fig. 5 to place a heat insulating sheet on the bottle body 10. The bottle mouth 102 is better for the insulation effect of the insulated bottle 1. Please refer to the sixth, seventh, which is a schematic exploded perspective view and a cross-sectional view of the second embodiment of the present invention. The thermal insulation bottle iA in the present embodiment is substantially the same as the main structure of the thermal insulation bottle i in the first embodiment. The symbol of the component is marked for comparison and its side is omitted, and the insulated bottle 1A in this embodiment has the same effect as the insulated bottle of the first embodiment. In the second embodiment, the bottle body 10A is made of glass and has an inner bottle body UA and an outer bottle body 12A separately formed, and then the outer bottle body 12A is sleeved on the outer side of the inner bottle body UA and sintered into one body ( The sintering process is not shown in the drawing, and the interlayer therebetween is evacuated from the bottom of the bottle body 1 to form a closed vacuum bottle sandwich layer UA between the outer bottle body 12A and the inner bottle body 11A. A vacuum sealing protrusion 15 is formed at the bottom of the bottle body 12A. Since the bottle body 1A is vacuumed and then sealed, it is a conventional technique, and the description will be omitted. Referring to Figures 8 to 10, there are shown a perspective view, a perspective exploded view and a schematic cross-sectional view of a third embodiment of the present invention. The insulated baby bottle 1B of the present embodiment has substantially the same main structure as the insulated baby bottle 1 of the first embodiment. The same components are denoted by the same reference numerals and the related description is omitted, and the insulated baby bottle 1B in the present embodiment has the same effect as the insulated baby bottle j in the first embodiment. The insulated baby bottle 1B has a double-layered and hollow bottle body 10B, and a top cover 20 is disposed above the bottle body 10B. The size of the mouth portion 101B of the bottle body 10B is substantially the same as the inner diameter of the bottle body 10B, so as to facilitate rapid manufacturing, and the bottle body 10B has a bottle mouth 102B' communicating with the outside at the mouth portion 101B. A embossed embossing i〇3B is provided on the outer side of the ιοιΒ for fixing the top cover 20. The bottle body 10B has an inner bottle body 11B and an outer bottle body 12B. The inner bottle body 11B has a 16 201244709 hollow liquid storage space 110B' and the outer bottle body 12B is disposed in the inner bottle body as shown in FIG. On the outer side of the UB, the bottle body 10B is provided with a bottle body interlayer 13B between the outer bottle body 12B and the inner bottle body 11B. When the top cover 20 is fixed to the mouth portion 101B of the bottle body 10B, the inside of the mouth suction member 23 communicates with the liquid storage space 110B through the bottle mouth 1〇2B. In addition, the bottle body 10B in the third embodiment can be additionally rotated, and the top surface of the cover 21A of the top cover 20A of the top cover 20A' shown in the figures u and 12 is closed, and the cover body 2ia corresponds to the spiral relief i The 〇3b is provided with a screw-like 211A on the inner side thereof, and the top cover 20A is also screwed to the screw ridge 103B by the screw-fixing 211A to fix the top cover 20A to the bottle mouth portion 101B of the bottle body 10B. Referring to Figures 13 and 14, there are shown a schematic exploded perspective view and a cross-sectional view of a fourth embodiment of the present invention. The insulated bottle 1C of the present embodiment is substantially the same as the main structure of the insulated bottle j in the first embodiment. The components are all given the same symbols for comparison and the related description is omitted, and the insulated bottle 1C in this embodiment has the same efficacy as the insulated bottle i in the first embodiment. In the fourth embodiment, the 'insulated bottle 1C' The size of the bottle mouth i〇ic is substantially the same as the inner diameter of the ship body i〇c, so as to facilitate rapid manufacturing, the bottle body 10C is made of glass material and has an inner bottle body 11C and an outer bottle body 12C. After the inner bottle body 11C and the outer bottle body 12C are separately formed, the outer bottle body 12C is sleeved on the outer side of the inner bottle body 11C and sintered into one body (the sintering process is not shown), and the bottle is sintered after the sintering. The bottom of the body interlayer 13C is evacuated to form a closed vacuum bottle sandwich 13C between the outer bottle body 12C and the inner bottle body lie, thereby forming a vacuum sealing protrusion 15' at the bottom of the outer bottle body 12C. It is a conventional technique to seal the body 10C after vacuuming, and the description will be omitted. In the present embodiment, when necessary, the bottle body 10C may be selected to have a transparent heat insulating film layer or a dot-like or mesh-like heat insulating film as shown in FIG. 15 on the outer peripheral surface of the inner bottle body lie. The layer 111C is provided on the inner peripheral surface of the outer bottle body 12C as shown in FIG. 16 with a transparent heat insulating film layer or a dot-like or mesh-shaped heat insulating film layer 121C, and by its mesh gap The state and residual amount of the liquid contained in the liquid storage space 110C in the inner bottle body 11C can still be clearly seen from the outside for the user to visually check the liquid in the liquid storage space 110C, and evaluate the remaining eating time. The transparent heat-insulating film layer is made of a material that prevents infrared rays or far-infrared rays, and the dot-shaped or 17 201244709 mesh-shaped heat insulating film layers me and i2ic may be vapor deposited or sprayed metal thin layers such as metallic silver. , metal gold, metal copper, metal! g, metal Lai mineral film layer. The heat-insulating film layers 111C and 121C have a mesh-like density and ugliness, and the shape of the mesh can be appropriately selected or changed. For example, the shape of the mesh or the mesh of the heat-insulating film layer can be made into any geometry. Shapes and other business _ case _ shape, text or any cartoon shape, this can not only be taught in breastfeeding 'Let the baby can understand the trademark pattern, text or cartoon _ shape from an early age, and can be indirectly up, in the fifth embodiment For example, if a transparent and good thermal insulation film is used, for example, "3MCS. = m" material can be fully attached or fully vapor-deposited or sprayed with a thermal insulation film in the insulated bottle (not shown). Lie, the outer peripheral surface of the lie and the inner peripheral surface of the outer bottle body 12, 12C, and even the heat-insulating film are not provided on the inner peripheral surface of the body u, the outer peripheral surface of the par and the inner body of the outer body 12, 12C, and the direct transparency is good. Insulation film f, full or partial attachment of the metal barrier is not feasible on the outer surface of the bottle 12, 12C outside the insulated bottle. The above description is only a preferred embodiment of the present invention, and therefore, the surface protected by the ship is not covered by the scope of the patent application, so the use of the outline t and the simplified outline of the figure and the equivalent of the change 4 are It is to be understood that it is included in the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing an embodiment of the present invention; Fig. 2 is a perspective exploded view showing a first embodiment of the present invention; and Fig. 3 is a cross-sectional view showing a first embodiment of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 5 is a cross-sectional view showing the first embodiment of the present invention; FIG. 6 is a perspective exploded view showing the second embodiment of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 8 is a schematic perspective view showing a molding example of a second embodiment of the present invention; FIG. 8 is a perspective view showing a third embodiment of the present invention; and FIG. 9 is a perspective exploded view showing a third embodiment of the present invention; FIG. 11 is a perspective view showing a third embodiment of the present invention; FIG. 11 is a perspective view showing a third embodiment of the present invention; and FIG. 14 is a cross-sectional view showing a third embodiment of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 15 is a perspective cross-sectional view showing a molding example of a fourth embodiment of the invention; FIG. 3 is a perspective exploded view showing the three-dimensional decomposition of the thermal insulation interlayer on the bottle body in the fourth embodiment. It is intended; ,, " member of the present invention illustrating a fourth embodiment of the interlayer insulating exception message body exploded schematic perspective. [Description of main component symbols] ~ Insulation bottle 1A, IB, 1C; Bottle 10, 10A, 10B, 10C; Bottle mouth 101, 101B, 101C; Bottle mouth 102, 102B, 102C; Screw relief 103, l 〇3B, 103C; inner bottle body 11, 11A, 11B, 11C; heat insulation film layer 111C; liquid storage space 110, 110B, 110C; outer bottle body 12, 12A, 12B, 12C; heat insulation film layer 121C; Sandwich layer 13, 13A, 13B, 13C; vacuum sealing protrusion 15; top cover 20, 20A; cover body 2 21A; opening 22; mouth suction member 23; opening 231; screw-solid 2U, 211A; twenty four.

Claims (1)

201244709 VII. Patent application scope: 1. A palatable insulated bottle includes: a glass bottle body, one end of the bottle body is a bottle mouth, and a bottle mouth connected to the outside is provided at the mouth of the bottle for a cap is screwed to the mouth of the bottle body, the bottle body has an inner bottle body and an outer bottle body, the outer bottle body is disposed outside the inner bottle body, and the inner bottle body has a hollow interior In the liquid storage space, the bottle body is provided with a vacuumed bottle body interlayer between the outer bottle body and the inner bottle body, and the heat insulating bottle bottle is used to relieve heat conduction and convection by the bottle body interlayer to make the container The liquid in the reservoir space maintains a palatable temperature for feeding the infant for a period of time. 2. The palatable insulated baby bottle according to claim 1, wherein the outer bottle body and the inner bottle body are integrally formed, and then the bottle body interlayer is evacuated. 3. The palatable insulated baby bottle of claim 1, wherein the outer bottle body and the inner bottle system are separately molded and then sintered into one body and the bottle body interlayer is evacuated. 4. For a palatable insulated bottle as described in item i of the patent application, wherein the period of time referred to includes 60 minutes or less. 5. The palatable insulated bottle of claim 1, wherein the liquid is said to include breast milk, milk, boiling water, nutrient solution or juice. 6. The palatable insulated bottle of claim 2, wherein the mouth portion has a size substantially the same as the inner diameter of the bottle. 7_ The palatable insulated bottle according to the scope of the patent application, wherein the bottle body is further provided on the inner peripheral surface of the outer bottle body - a part of the entire insulating layer. 8, 8 If the scope of patent application is the first! The palatable insulated bottle according to the item, wherein the bottle body is provided with a part of the outer peripheral surface of the inner body body and a part of the total insulating film layer. ^ The palatable insulated bottle according to claim 7 or 8, wherein the insulating film is in the form of a mesh, a mesh, a geometric shape, a trademark pattern, a character and a cartoon. For example, the palatable insulated bottle according to the seventh or sth aspect of the patent application, the film, the transparent heat-insulating film is directly attached to the outer peripheral surface of the inner bottle body and the outer bottle body. ’