JP2014135955A - Feeding bottle cooling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a feeding bottle cooling device that can cool down milk which is put in a feeding bottle and has a temperature higher than the right temperature to the right temperature without manual operation.SOLUTION: The feeding bottle cooling device includes: a cooling tank in which a cooling medium that cools a feeding bottle is put: rotation support means for rotatably supporting the feeding bottle in a state of being tilted with respect to a horizontal line to prevent at least a nipple part of the feeding bottle from contacting the cooling medium in the cooling tank; and rotation driving means for rotating the feeding bottle which is rotatably supported by the rotation support means around the longitudinal axis.

Description

  The present invention relates to a baby bottle cooling device for cooling baby bottles containing milk having a temperature higher than an appropriate temperature.

  Conventionally, when formulating milk in a baby bottle, the milk powder is first dissolved in hot water (eg, 70 ° C. or higher), and then stored in running water such as tap water or in a suitable container. Among them, the milk in the baby bottle was cooled to an appropriate temperature (50 ° C. or lower) by an appropriate stirring operation.

  Patent Document 1 discloses a cooler that cools milk in a baby bottle by inserting the baby bottle into a container that contains tap water and the like, and swinging the container after closing the lid of the container. It is disclosed.

JP 2011-229594 A

  However, the manual cooling operation of the milk in the baby bottle as described above is time consuming and time consuming, and the burden on the operator is large. Since the cooler described in Patent Document 1 also cools the milk in the baby bottle by manual work after all, it cannot be expected to greatly reduce the burden on the operator.

  The present invention has been made in consideration of the above-described conventional problems, and can cool milk having a temperature higher than the optimum temperature contained in the baby bottle to the optimum temperature without human intervention. An object of the present invention is to provide a baby bottle cooling device.

  In order to solve the above-mentioned problems, the present invention provides a baby bottle cooling device for cooling a baby bottle containing milk having a temperature higher than the optimum temperature to bring the milk to the optimum temperature, wherein the baby bottle is cooled. A cooling tank for containing the cooling medium to be rotated, and the baby bottle can be rotated at an angle with respect to the horizontal so that at least the nipple portion of the baby bottle does not contact the cooling medium in the cooling tank And a rotation driving means for rotating the baby bottle rotatably supported by the rotation supporting means around a longitudinal axis thereof.

  Preferably, the rotation support means has at least one side roller member for rotating and supporting the side peripheral surface of the baby bottle.

  Preferably, the rotation support means includes a plurality of side roller members arranged at different heights.

  Preferably, the rotation support means is configured to rotate and support the side peripheral surface of the baby bottle at a plurality of positions in the longitudinal axis direction by the plurality of roller members disposed at different heights. Has been.

  Preferably, the rotation support means has a pair of side roller members juxtaposed at the same height.

  Preferably, the rotation support means includes at least two pairs of the side roller members juxtaposed at the same height, and the groups are arranged at different heights.

  Preferably, the rotation driving means has a drive source for rotating and feeding the baby bottle by rotating at least one of the side roller members.

  Preferably, the side roller member rotated by the drive source includes a pair of side roller members juxtaposed at the same height.

  Preferably, the lid further includes a lid member for covering the upper surface opening of the cooling tank, and the at least one side roller member is at least one lid side roller member provided inside the lid member. including.

  Preferably, the rotation support means includes a resilient member for resiliently bringing the lid side roller member into contact with the side peripheral surface of the baby bottle.

  Preferably, the rotation support means is configured to be able to rotate and support the baby bottles having different lengths by changing an angle with respect to the horizontal of the baby bottle according to the length of the baby bottle. .

  Preferably, the rotation support means includes a plurality of side roller members for rotating and supporting a side peripheral surface of the baby bottle, and the plurality of side roller members are set to a length of the baby bottle. Regardless of the common side roller member to be used, and the individual side roller member to be used properly according to the length of the baby bottle.

  Preferably, the rotation driving means has a drive source for rotating the common side roller member.

  Preferably, the rotation support means has at least one bottom roller member for rotating and supporting the bottom surface of the baby bottle.

  Preferably, the rotation driving means includes a rotation speed control unit for controlling the rotation speed of the baby bottle.

  Preferably, the rotation driving means has a rotation time control unit for controlling the rotation time of the baby bottle.

  Preferably, the apparatus further includes a discharge means for discharging the cooling medium inside the cooling tank.

  According to the baby bottle cooling device of the present invention, milk having a temperature higher than the appropriate temperature stored in the baby bottle can be cooled to the appropriate temperature without depending on human hands.

It is the longitudinal cross-sectional view of the baby bottle cooling device by one Embodiment of this invention, and the figure which showed the state which cools a long baby bottle. It is the longitudinal cross-sectional view of the baby bottle cooling device by one Embodiment of this invention, and the figure which showed the state which cools a short baby bottle. FIG. 3 is a cross-sectional view taken along line 3-3 in FIG. 1. Sectional drawing along line 4-4 in FIG. The top view of the baby bottle cooling device shown in FIG. The side view of the baby bottle cooling device shown in FIG. The bottom view of the baby bottle cooling device shown in FIG. The front view of the baby bottle cooling device shown in FIG. The rear view of the baby bottle cooling device shown in FIG. The perspective view which looked at the baby bottle cooling device shown in FIG. 1 from diagonally upward. The perspective view which looked at the baby bottle cooling device shown in FIG. 1 from diagonally downward. The top view which showed the state which removed the lid | cover of the baby bottle cooling device shown in FIG. The side view of the baby bottle cooling device shown in FIG. The front view of the baby bottle cooling device shown in FIG. The rear view of the baby bottle cooling device shown in FIG. The top view for demonstrating the gear mechanism of the baby bottle cooling device shown in FIG. The front view for demonstrating the gear mechanism of the baby bottle cooling device shown in FIG. The perspective view for demonstrating the gear mechanism of the baby bottle cooling device shown in FIG. The schematic diagram of the control mechanism of the baby bottle cooling device shown in FIG. The side view which showed the modification of the baby bottle cooling device shown in FIG.

  Hereinafter, a baby bottle cooling device according to an embodiment of the present invention will be described with reference to FIGS.

  The baby bottle cooling device 1 according to the present embodiment is a baby bottle cooling device for cooling the baby bottle B (B1, B2) containing milk having a temperature higher than the appropriate temperature so that the milk has an appropriate temperature. Is for cooling milk prepared at about 70 ° C. to 50 ° C. or lower.

  As shown in FIGS. 1 to 4, the baby bottle cooling device 1 according to the present embodiment includes a cooling tank 2 for housing a cooling medium for cooling the baby bottle B inside the main body casing 3.

  Here, as the cooling medium, preferably cooled water (cold water) is used, and more preferably, cold water containing ice pieces is used.

  The baby bottle cooling device 1 is a rotary support that rotatably supports the baby bottle B at an angle with respect to the horizontal so that at least the nipple portion of the baby bottle B does not contact the cooling medium in the cooling tank 2. Means 4 are provided.

  The rotation support means 4 includes a plurality of side roller members 5A, 5B, 5C for rotating and supporting the side peripheral surface of the baby bottle B. When the baby bottle B is rotated, the side roller members 5A, 5B, and 5C roll on the side peripheral surface of the baby bottle B.

  Further, the rotation support means 4 includes a bottom roller member 6 for rotatably supporting the bottom surface of the baby bottle B disposed in the cooling bath 2. The bottom roller member 6 rolls on the bottom surface of the baby bottle B when the baby bottle B is rotated.

  The plurality of side roller members 5A, 5B, and 5C include three pairs of side roller members juxtaposed at the same height. Among these, the side roller member 5 </ b> B and the side roller member 5 </ b> C are arranged at the bottom of the cooling tank 2. On the other hand, the side roller member 5 </ b> A is disposed at a position (cold water level side) higher than the bottom of the cooling bath 2.

  Furthermore, the baby bottle cooling device 1 includes a rotation driving means 7 for rotating the baby bottle B rotatably supported by the rotation support means 4 around the longitudinal axis thereof.

  The rotation driving means 7 has a drive source 8 for rotating the baby bottle B by rotating and driving a pair of side roller members 5A located at a high position (cold water level). The drive source 8 is preferably composed of an electric motor, and the rotation output of the electric motor is transmitted to the pair of side roller members 5 </ b> A via a gear mechanism 9 which is a part of the rotation drive means 7.

  As shown in FIGS. 16 to 18, the gear mechanism 9 includes a plurality of gears 9 </ b> A to 9 </ b> F. Among them, the pair of gears 9A are provided coaxially with the pair of side roller members 5A, and rotate integrally with the corresponding roller members 5A.

  A gear (pinion) 9B that meshes with these gears 9A is disposed between the pair of gears 9A. Further, a gear 9C that is coaxial with the gear 9B and rotates integrally is provided. The gear 9C meshes with a gear (pinion) 9D.

  A gear 9E that rotates coaxially and integrally with the gear 9D is provided. The gear 9E meshes with a gear (pinion) 9F. The gear 9 </ b> F is fixed to the output shaft of the drive source (electric motor) 8.

  Thereby, the rotational output of the drive source 8 is transmitted to the pair of gears 9A while being decelerated, and the pair of side roller members 5A are rotated at the same speed in the same direction.

  As shown in FIGS. 1 and 2, the side roller member 5 </ b> A that is rotationally driven by the drive source 8 has a rotation axis that is horizontally oriented and a portion that contacts the side peripheral surface of the baby bottle B. The baby bottle B is inclined in an umbrella shape in accordance with the inclination angle of the baby bottle B.

  These driving side roller members 5A are made of a material that can secure a sufficient frictional force with the side peripheral surface of the baby bottle B even in a wet state, and are preferably made of a silicone material. Yes.

  The upper surface opening of the cooling tank 2 is covered with a lid member 10, and as shown in FIGS. 3 and 4, the lid member 10 is fitted with a guide portion 11 on the upper surface of the peripheral wall of the cooling tank 2 at the peripheral edge of the lower surface. A mating portion 12 to be joined is formed. Then, by sliding the lid member 10 on the upper surface of the peripheral wall of the cooling tank 2, the fitting part 12 and the guide part 11 are connected, and the lid member 10 is mounted on the upper part of the cooling tank 2.

  As shown in FIGS. 1 and 2, a lid side roller member 5 </ b> D is provided inside the lid member 10 via a resilient member 13. Then, the side roller member 5D for lid is elastically brought into contact with the side peripheral surface of the baby bottle B by the elastic member 13. Thereby, it can respond to baby bottle B1 and B2 from which a dimension differs appropriately.

  As can be seen from FIGS. 1 and 2, the rotation support means 4 rotates and supports the baby bottles B1 and B2 having different lengths by changing the angle of the baby bottle B with respect to the horizontal according to the length of the baby bottle B. It is configured to be able to.

  The pair of side roller members 5 </ b> A arranged at a high position (cold water level) is a common side roller member that is always used regardless of the length of the baby bottle B. On the other hand, the side roller members 5 </ b> B and 5 </ b> C arranged at the bottom are individual side roller members that are selectively used according to the length of the baby bottle B. As described above, the drive source (electric motor) 8 of the rotation drive means 7 rotates the common side roller member 5A.

  In addition to the drive source 8, the rotation drive means 7 described above has a control unit 14 (FIGS. 1 and 2) for controlling the cooling time. The control unit 14 preferably controls the rotation speed / cooling speed while measuring the amount of cooling water and the temperature of the cooling water.

  As shown in FIGS. 5 to 7, the discharge means 15 for discharging the cooling medium (for example, cold water) inside the cooling tank 2 is provided in the lower part of the back wall of the cooling tank 2. The discharging means 15 is constituted by a valve member that can be opened and closed. Instead of the valve member, the discharge means 15 may be constituted by an opening formed in the lower portion of the back wall of the cooling tank 2 and its stopper member.

  And when cooling the baby bottle B in which the high temperature milk after milk preparation is accommodated using the baby bottle cooling device 1 according to the present embodiment, first, cold water (which may contain ice pieces) is used. The baby bottle B is placed in the stored cooling tank 2. First, the baby bottle B may be disposed in the empty cooling tank 2, and then cold water may be poured into the cooling tank 2.

  As shown in FIG. 1, in the case of the long baby bottle B1, the side peripheral surface of the baby bottle body close to the nipple portion is supported by a pair of driving side roller members 5A. And the side peripheral surface of the part near the bottom part of the baby bottle body is supported by a pair of side roller members 5 </ b> C disposed at the bottom center of the cooling tank 2. Further, the bottom surface of the baby bottle B <b> 1 is supported by the bottom roller member 6.

  On the other hand, as shown in FIG. 2, in the case of the short baby bottle B2, the side peripheral surface of the portion near the nipple portion of the baby bottle body is a pair of driving bottles as in the case of the long baby bottle B1. It is supported by the side roller member 5A. The lower peripheral surface of the baby bottle body is supported by a pair of side roller members 5 </ b> B arranged in front of the bottom of the cooling tank 2.

  Furthermore, in the short baby bottle B2, the bottom surface of the baby bottle B2 is supported by a pair of side roller members 5C arranged at the bottom center of the cooling tank 2. That is, in the short baby bottle B2, the side roller member 5C disposed at the center of the bottom of the cooling tank 2 functions as a bottom roller member that rotatably supports the bottom surface of the baby bottle B2.

  As described above, in both the case of the long baby bottle B1 and the case of the short baby bottle B2, the side peripheral surface of the portion close to the nipple of the main body of the baby bottle is located at a high position in the cooling tank 2 (the level of the cold water). A pair of side rollers that are supported by a pair of side roller members 5 </ b> A arranged on the side), and a portion of the baby bottle body that is closer to the bottom or a lower side peripheral surface is arranged at the bottom of the cooling tank 2. It is supported by the roller members 5C and 5B.

  Thus, in the baby bottle cooling device 1 according to the present embodiment, the side peripheral surface of the baby bottle B is placed at a plurality of positions in the longitudinal axis direction by the side roller members 5A, 5B, and 5C having different heights. Since the support is made, the baby bottle B is rotatably supported in an angle with respect to the horizontal. Thereby, it can prevent that the teat part of the baby bottle B contacts the cooling medium in the cooling tank 2.

  Here, since the nipple part of the baby bottle B is a part that the baby puts in the mouth, preventing contact with the cooling medium is extremely hygienic when considering use in a public place such as a commercial facility. is important.

  In this regard, for example, in the case of a can beverage such as beer, the person who drinks it is not an infant, so even if the can beverage is soaked in cold water and cooled, there is no particular problem even if the whole is submerged.

  Rather, considering the cooling efficiency, in order to increase the contact area between the cold water and the can surface as much as possible, it is desirable to place the can beverage horizontally so that its longitudinal axis is horizontal, and to submerge the entire can as much as possible.

  On the other hand, in the case of baby bottle B, the nipple portion cannot be submerged for hygienic reasons, so cooling in a horizontal state (horizontal state) cannot be performed. is there. The present invention has been made in consideration of such circumstances peculiar to baby bottles.

  Next, the operation of the baby bottle cooling device 1 according to the present embodiment will be described.

  In the state shown in FIG. 1 and FIG. 2, when the drive source 8 composed of an electric motor is activated and the pair of side roller members 5 </ b> A are rotationally driven, the baby bottle B rotates around its longitudinal axis.

  Here, since the side peripheral surface of the baby bottle B is elastically suppressed from above by the side roller member 5D disposed inside the lid member 10, vibration during rotation of the baby bottle B is suppressed and rotated. The operation can be stabilized and the baby bottle B can be reliably prevented from jumping out during rotation.

  When the baby bottle B rotates inside the cooling medium (cold water), the milk contained in the baby bottle B is stirred, so that the cooling efficiency is improved and the milk can be rapidly cooled. .

  Specifically, high-temperature milk around 70 ° C. can be cooled to 50 ° C. or less in a short time (less than 5 minutes (preferably 1, 2 minutes)). Moreover, the temperature of the milk in the baby bottle B is made uniform by the stirring effect by rotation.

  Since the cooling efficiency (heat transfer coefficient) and the amount of heat to be cooled differ depending on the material of the baby bottle B or the milk capacity, an appropriate cooling time according to the material and capacity may be set by the control unit 14.

  Specifically, since the glass baby bottle B has a higher cooling efficiency than the resin baby bottle B such as polypropylene (PP), a relatively short cooling time is required for cooling the glass baby bottle B. On the other hand, when cooling the baby bottle B made of polypropylene, a relatively long cooling time is set.

  The cooling time and the rotation speed can be set according to the capacity of the baby bottle B as well as the material of the baby bottle B. That is, in the case of the long large-capacity baby bottle B1, the cooling time is increased or the rotation speed is increased. On the other hand, in the case of the short small-capacity baby bottle B2, conversely, the cooling time is shortened or the rotation speed is slowed.

  As shown in FIGS. 1 and 2, a temperature sensor 16 that detects the temperature of the cooling medium at the time of cooling and the temperature of milk inside the baby bottle B is provided, and is automatically controlled based on the temperature detected by the temperature sensor 16. It is also possible to perform. As the temperature sensor 16, a non-contact type temperature sensor 16 may be used.

  As shown in FIG. 19, the operation panel 17 (provided in the main body casing 3) of the baby bottle cooling device 1 according to the present embodiment includes a case where the material of the baby bottle B is glass and polypropylene (PP). The changeover switch 18 to be switched, the push switches 19 and 20 for selecting whether the baby bottle B is long (large capacity) or short (small capacity), and the baby bottle B is rotated to start cooling. And a start button 21.

  Note that a dial-type mechanism may be employed in the operation panel 17.

  Then, by appropriately operating the changeover switch 18 and the pressure switches 19 and 20 on the operation panel 17 according to the capacity and material of the baby bottle B, an appropriate cooling rate (rotation) according to the capacity and material of the baby bottle B is achieved. Speed) and cooling time (rotation time) are selected. Thereby, supercooling and insufficient cooling are prevented, and the milk in the baby bottle B can be adjusted to an appropriate temperature.

  As a modification of the above-described embodiment, as shown in FIG. 20, the lid member 10A can be attached to the main body casing 3 so as to be openable and closable with a hinge structure.

  As described above, according to the baby bottle cooling device 1 according to the present embodiment, milk prepared with warm water having a temperature higher than the appropriate temperature (for example, 70 ° C.) is rapidly cooled to the appropriate temperature without human intervention. be able to.

  For this reason, the operator can use the time conventionally used for cooling the milk, for example, to clean up the tools used for milk preparation, and the work burden can be reduced.

  In addition, according to the baby bottle cooling device 1 according to the present embodiment, it is not necessary to make the tap water run down from the faucet unlike the conventional manual cooling, so that a water saving effect can be expected.

  By the way, in the rest room of commercial facilities (department stores, etc.), tap water faucets may not be used in the first place. In this respect, in the baby bottle cooling device 1 according to the present embodiment, the baby bottle B can be cooled if the amount of cold water to be poured into the cooling tank 2 can be ensured (which may be a mixture of normal temperature water and ice pieces). The restriction regarding the place when the baby bottle B is cooled can be greatly relaxed.

  Furthermore, since the operation panel 17 and the control unit 14 can set an appropriate cooling rate (rotation speed) and cooling time (rotation time) according to the capacity and material of the baby bottle B, the milk can be supercooled or cooled. Insufficiency can be prevented.

  In the above-described embodiment, the configuration in which the baby bottle B is rotated by the driving source 8 such as an electric motor has been described as an example. However, the baby bottle cooling device according to the present invention has a configuration in which the baby bottle B is manually rotated. It can also be adopted.

  Moreover, in the said embodiment, although the structure provided with the discharge means 15 for discharging | emitting a cooling medium from the cooling tank 2 was demonstrated as an example, the discharge means is not an essential structural requirement in the baby bottle cooling device by this invention. .

DESCRIPTION OF SYMBOLS 1 Feeding bottle cooling device 2 Cooling tank 3 Main body casing 4 Rotation support means 5A, 5B, 5C, 5D Side roller member (rotation support means)
6 Bottom roller member (rotation support means)
7 Rotation drive means 8 Drive source (rotation drive means)
9 Gear mechanism (rotation drive means)
10, 10A Lid member 11 Guide portion 12 Fitting portion 13 Elastic member 14 Control portion 15 Discharge means 16 Temperature sensor 17 Operation panel 18 Changeover switch 19, 20 Press switch 21 Start button B, B1, B2 Baby bottle

Claims (17)

A baby bottle cooling device for cooling a baby bottle containing milk having a temperature higher than the optimum temperature to bring the milk to the optimum temperature,
A cooling tank for containing a cooling medium for cooling the baby bottle;
Rotation support means for rotatably supporting the baby bottle at an angle with respect to the horizontal so that at least the nipple portion of the baby bottle does not contact the cooling medium in the cooling tank;
Rotation drive means for rotating the baby bottle rotatably supported by the rotation support means about its longitudinal axis;
A baby bottle cooling device.   The baby bottle cooling device according to claim 1, wherein the rotation support means includes at least one side roller member that rotatably supports a side peripheral surface of the baby bottle.   The baby bottle cooling device according to claim 2, wherein the rotation support means includes a plurality of the side roller members disposed at different heights.   The rotation support means is configured to rotatably support the side peripheral surface of the baby bottle at a plurality of positions in a longitudinal axis direction thereof by a plurality of roller members arranged at different heights. Item 4. The baby bottle cooling device according to Item 3.   The baby bottle cooling device according to any one of claims 2 to 4, wherein the rotation support means includes a pair of the side roller members juxtaposed at the same height.   The baby bottle cooling device according to claim 5, wherein the rotation support means includes at least two pairs of the side roller members juxtaposed at the same height, and each set is disposed at a different height. .   The baby bottle cooling device according to any one of claims 2 to 6, wherein the rotation driving unit includes a drive source for rotating and feeding the baby bottle by rotating and driving at least one of the side roller members. .   The baby bottle cooling device according to claim 7, wherein the side roller members rotated by the drive source include a pair of side roller members juxtaposed at the same height. A lid member for covering the upper surface opening of the cooling tank;
The baby bottle cooling device according to any one of claims 2 to 8, wherein the at least one side roller member includes at least one lid side roller member provided inside the lid member.   The baby bottle cooling device according to claim 9, wherein the rotation support means includes a resilient member for resiliently bringing the lid side roller member into contact with the side peripheral surface of the baby bottle.   The said rotation support means is comprised so that rotation support of the said baby bottle from which length differs is possible by changing the angle with respect to the horizontal of the said baby bottle according to the length of the said baby bottle. The baby bottle cooling device according to any one of 10. The rotation support means has a plurality of side roller members for rotating and supporting the side peripheral surface of the baby bottle,
The plurality of side roller members include a common side roller member that is used regardless of the length of the baby bottle, and an individual side roller member that is selectively used according to the length of the baby bottle. 11. The baby bottle cooling device according to 11.   The baby bottle cooling device according to claim 12, wherein the rotation driving means includes a drive source for rotating the common side roller member.   The baby bottle cooling device according to any one of claims 1 to 13, wherein the rotation support means includes at least one bottom roller member for rotating and supporting the bottom surface of the baby bottle.   The baby bottle cooling device according to any one of claims 1 to 14, wherein the rotation driving unit includes a rotation speed control unit for controlling a rotation speed of the baby bottle.   The baby bottle cooling device according to any one of claims 1 to 15, wherein the rotation driving unit includes a rotation time control unit for controlling a rotation time of the baby bottle.   The baby bottle cooling device according to any one of claims 1 to 16, further comprising discharge means for discharging the cooling medium inside the cooling tank.

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