DE202005006424U1 - A method for cooling hot liquid infant foods has a cooling vessel temporarily placed between the hot vessel and the drinking vessel - Google Patents

Abstract

The food is prepared in a first vessel (3) in a heated condition and may then be screwed (9) to one side (11) of the cooler (2) with the drinking vessel (4) screwed (10) to the other side (12) The assembly is inverted and the hot liquid passes through a helical tube within a cooling means.

Description

The Invention relates to a device for cooling a hot liquid food, in particular of water to a drinking temperature, comprising a coolant containing cooling unit with one through the coolant guided an inlet for the admission of the hot liquid and an outlet for the chilled liquid having cooling line.

such coolers for example, to prepare a meal for a baby or toddler used. When preparing such a meal becomes boiled hot Water as a liquid Food by the cooler directed to the hot To cool water to drinking temperature and thus the otherwise longer lasting cooling process across from accelerate the ambient air. One is known for this purpose designed cooling device from WO 2004/070294 A1. The cooling device described in this document basically includes a refrigeration unit, that with a coolant filled is and through which a cooling line guided is. The cooling line is in the manner of one in the coolant immersed coil designed, the upper connector to a Inlet and the lower connector leads to an outlet. Of the Inlet opens on the upper end side of the refrigeration unit, the spout on the lower end side. On the inlet side of the cooling unit is a filling aid placed. At the filling aid It is a funnel-shaped object with a lower, to initiate the hot liquid in the inlet of the cooling line serving spout. According to one in the above-mentioned document described embodiment of the filling helps In addition, the function of a measuring cup for measuring the to be cooled amount of liquid to. But so that a defined amount of hot liquid the cooling unit This prior art device can be supplied and in the filling aid poured hot liquid not already before completion of the measuring process in the cooling line flows, it is necessary that the filling aid outlet side or the cooling unit On the inlet side, a valve, which in the process of filling and measuring the hot ones liquid closed in the filler is. Otherwise, the measuring process is due to hot liquid that is already leaking falsified. This can then lead to an overflow one to the to be cooled amount of liquid lead adapted collecting vessel. Of Further is then not guaranteed that from the chiller outflowing liquid has the intended drinking temperature, possibly too cool, so that then the prepared meal again something needs to be heated.

The Bottom of the cooling unit has connection means, to a collecting vessel, for example a baby bottle can be connected. In this flows from the cooling line exiting chilled liquid Food, such as the water. With the at drinking temperature Water then becomes the desired meal prepared and administered to the baby or toddler.

adversely in this prior art cooling device is their handling and the difficulty of having a predefined amount of fluid to cool, if not additional Valves are used. Especially with devices that are in contact get with food, such as in the above cooler One strives to keep those parts of the device in contact come with the food, if possible easy to design, to avoid cleaning the device unnecessary to complicate. About that In addition, to ensure in this prior art cooling device that when filling of the hot liquid Food in the filling aid the remaining Components of the cooling device, should these not otherwise be fixed, detained to a tip over of the cooling device and one with submerged discharge of the hot water from the filling aid to avoid.

outgoing from this discussed prior art, the invention therefore lies the object of developing an aforementioned cooling device in such a way that the disadvantages pointed out to the discussed prior art encountered.

These The object is achieved by a initially mentioned, generic cooling device solved, in which the device at least one to the end side of the cooling unit with the inlet with its opening connectable and by connecting to the cooling unit closable Filling vessel with defined Filling volume comprising, wherein for the purpose of connecting the filling vessel to the cooling unit both parts complementary bear cooperating fasteners, so that from a filling vessel and the cooling unit for the Process of cooling a figurative Unit can be formed and depending on the defined, from the filling vessel into the Inlet of the cooling unit flowing Amount of liquid the temperature and the amount of refrigerant contained in the refrigeration unit the liquid with a specified within narrow limits temperature from the spout the cooling unit exits.

This cooling device has one or more filling vessels with a defined filling volume. Each of these filling vessels is with its opening on the inlet side of the cooling unit connectable, for example, form-fitting by cooperating threaded portions, one of which is assigned to the filling vessel and the other the cooling unit. The Einfüllgefäße can be connected to the cooling unit and form with this then a representational unit. It is important that the filling vessels are closed by the connection to the cooling unit and in this composite in the filling vessel liquid can occur only via the cooling line contained in the cooling unit. The filling vessels therefore have expediently on one and the same side only one opening for filling the hot, to be cooled food and also for discharging the same. Conveniently, the filling vessels are designed in the manner of a cup or a bottle. The filling vessels have, according to a front part embodiment, a thermal insulation. This facilitates the handling of the filling vessels. By such a measure, however, the filled in the hopper hot liquid is maintained for some time at its hot temperature level, so that the entering into the cooling line in the process of cooling liquid has a defined temperature. Such a filling vessel has a defined filling volume. The predetermined filling quantity can be indicated by a marking in or on the filling vessel. According to an advantageous embodiment, it is provided that the filling vessel is designed such that, when filled with the predetermined amount of liquid, the filling vessel is virtually full to the brim. The handling of such a quasi-filling filling vessel, which is filled with hot liquid, such as hot water, is not a problem because the hopper basically does not need to be moved. Rather, the cooling unit can be connected to the filling vessel, for example by screwing, whereby the filling vessel is sealed against outwardly leaking liquid. The filling vessel is thus closed with the cooling unit in the manner of a lid.

In front Start of the cooling process is the filling vessel with the to be cooled be called liquid arranged at the bottom and is by means of the inlet side of the cooling unit through the cooling unit locked. By tipping over the cooling device, leaving the cooling unit at the bottom and the filling vessel with its opening after down to the inlet of the cooling unit pointing at the top, the cooling process is initiated. The located in the filling vessel name is liquid then runs in the inlet of the cooling unit a, goes through the cooling line, being the hot one liquid a defined amount of heat is withdrawn, and then from the outlet of the cooling unit. That in the cooling unit contained coolant has previously been brought to a defined temperature, for example by Store in a refrigerator or freezer for a certain period of time at refrigerator temperature. When used as intended is thus defined by the filling vessel amount of liquid in the cooling line introduced, due to the awareness of the temperature of the example at refrigerator temperature located coolant as well as its amount, the flow rate of the cooled liquid a defined amount of heat withdrawn, so that the outlet side, the then cooled liquid in a tight Limits predefined temperature leaks. It is at this cooler exploited the fact that by the possibility of forming a subject Unit between the filling vessel and the cooling unit in the process of tipping over, the air present in the hopper through the name is liquid towards the bottom of the filling vessel rises and warms up and expand. This will in the hopper during the entry of the hot liquid in the cooling unit and accordingly during the passage of the liquid through the cooling unit creates a certain pressure, which is the flow of the liquid to be cooled through the cooling line supports and helps that through the cooling line guided amount of liquid total with a defined flow rate through the cooling line flows, wherein especially the building up in the hopper Pressure a defined flow the one to be cooled liquid supported with already partially or largely emptied filling vessel. Conveniently, a ventilation opening is provided, around in the process of cooling to introduce air into the emptying filling vessel. Such a ventilation opening itself located at the interface between the hopper and the refrigeration unit, so that The resulting in the hopper at his Emptying supplied Air passing through the hot liquid in the hopper heated expanded and at a defined pressure build-up within the hopper at contributes to its emptying.

In this cooling device, in which the filling vessel is assembled with the refrigerating unit for the operation of cooling to an objective unit, there is no risk that hot, uncooled liquid can leak if misused. After the objective unit between the hopper with the hot, liquid to be cooled and the cooling unit is made, this cooling device can be easily handled. For example, the cooling device with its outlet pointing down on a drinking vessel, such as a cup or a cup, so that the leaking at the outlet of the cooling liquid enters the drinking vessel. Such use of the cooling device can be used for cooling tea to shorten the cooling time until it reaches its drinking temperature.

In A further embodiment provides that the cooling unit also on the outlet side via connection means to connect a collecting vessel for Catching the chilled liquid having. This may be, for example, an internally threaded portion act on which about a baby bottle with an external thread connectable is. In such an embodiment is for the process of cooling a representational Unit from the filling vessel, the cooling unit and the collecting vessel formed, before the cooling process by turning over or overturning of the cooling device formed in this way is initiated. From this cooler can then neither hot still chilled liquid escape.

Of the cooler can be a stand to hold the representational Unit consisting of the filling vessel and the cooling unit and optionally the collecting vessel, be assigned. Because of this can the cooler be held securely. In a development of such a stand is provided to pivotally configure the holder so that the holder gets up on a base and the cooling device pivoted by 180 ° can be to fill up after of the hot Water in the filling vessel and assembling the cooling device to overturn them accordingly, that's hot Water through the cooling unit can flow into the collecting vessel. affiliated can be the cooling device to the holder with a cable arranged on the holder, into which for example, the cooling unit hooked can be.

following the invention with reference to an embodiment with reference on the attached Figures described. Show it:

1 FIG. 3 is a side view of three elements needed to construct a cooling device, including a refrigeration unit. FIG.

2 : those from the three elements of the 1 formed cooling device before cooling in a longitudinal section,

3 : the cooler of the 2 in the process of cooling,

4 : A detailed perspective view of the inlet side of the cooling unit and

5 : A plan view of the outlet side of the cooling unit of the cooling device.

A cooler 1 includes a refrigeration unit 2 , a filling vessel 3 as well as a collecting vessel 4 , The filling vessel 3 and the collecting vessel 4 are each bottle-shaped and have a single opening 5 respectively. 6 , The openings 5 . 6 are framed by a neck section 7 respectively. 8th at which a male threaded portion 9 respectively. 10 is formed. The external thread section 9 . 10 serves to connect the filling vessel 3 or of the collecting vessel 4 to the cooling unit 2 , The refrigeration unit 2 has for this purpose via complementary internal thread sections, which are used to connect the filling vessel 3 at its inlet side 11 and the collecting vessel 4 at its outlet side 12 are arranged. To avoid a connection confusion, the two threaded sections have 9 . 10 each have a different diameter. This ensures that the intended use of the filling vessel 3 only at the inlet side 11 and the collecting vessel 4 only at the outlet side 12 of the cooling unit 2 can be connected.

The composite cooling device 1 is in 2 shown. Visible is the connection of the collecting vessel 4 to the outlet side 12 of the cooling unit 2 and the connection of the filling vessel 3 to the inlet side 11 of the cooling unit 2 , The inlet side 11 and the outlet side 12 have to connect the inlet vessel 3 and the collecting vessel 4 via complementary internal thread sections. The refrigeration unit 2 has a converted cooling line 13 whose in 2 lower connection 14 to the inlet side 11 and its upper terminal 15 to the outlet side 12 of the cooling unit 2 is guided. The bottom of the inlet side 11 and the outlet side 12 each has an opening for introducing liquid into the cooling line 13 or to omit the same on. In the illustrated embodiment, the cooling unit 2 from two half-shells 16 . 17 , which are sealed together, constructed. The lower half shell 16 has a closure 18 on, through the into the refrigeration unit 2 a coolant can be introduced. The refrigeration unit 2 is with a coolant 19 (not indicated by hatching) filled. For the coolant 19 it may be, for example, water or an alcohol or alcohol mixture. The coolant 19 is inside the chiller 2 encapsulated and can only open with this closure 18 escape. Inside the refrigeration unit 2 there is a defined amount of coolant. In any case, you will be in the refrigeration unit 2 bring in such a quantity of coolant that the coiled section of the cooling line 13 immersed in it.

The collecting vessel 3 has a defined filling volume and is in the representation of 2 with boiled hot water 20 almost filled to the brim. Between the water level and the bottom of the inlet side 11 of the cooling unit 2 is included a small amount of air. The hot water 20 is in the filling vessel 3 introduced before its opening 5 by screwing on the cooling unit 2 with its inlet side 11 has been closed. The refrigeration unit 2 is for the process of intended cooling before it is screwed onto the filling vessel 3 stored in a refrigerator. That in the refrigeration unit 2 contained coolant 19 Therefore, has a refrigerator temperature of about 4 ° - 6 °.

For cooling the in the filling vessel 3 located hot water, the cooling device 1 is tilted by 180 °, so that then - as in 3 shown - the collecting vessel 4 is at the bottom and gets up with his bottom. By tipping over the cooling device 1 in her in 3 shown cooling position that runs in the hopper 3 hot water 20 in the cooling line 13 one. When passing through the cooling line 13 Heat is withdrawn from the passing hot water, which in the cooling unit 2 located coolant 19 heated. At the outlet side 12 of the cooling unit 2 Then cooled water comes out, which in the collecting vessel 4 , for example, a baby bottle, enters. This process occurs in the filling vessel 3 originally available air through the hot water 20 through, as in 3 indicated by the bubbles therein, expands and builds in the now upper area 21 of the filling vessel 3 a pressure supporting the emptying process. At the interface between the refrigeration unit 2 and the filling vessel 3 There is also a ventilation opening, through which ambient air into the filling vessel 3 when it is emptied. This is also due to the hot water 20 Guides, expands and supports the pressure build-up in the hopper 3 , By this pressure construction of the emptying process is supported, especially in partially emptied filling vessel 3 , The pressure build-up inside the filling vessel 3 when the hot water runs out 20 supports a defined cooling process, especially with regard to the speed of the hot water 20 when passing through the cooling line 13 , As a result, and as a result of the knownness of the other factors influencing the cooling process, it is possible to predict, within relatively narrow limits, the outflowing water temperature. Consequently, the cooling process is defined and reproducible with a constant outlet temperature. This assumes that the coolant contained in the refrigeration unit 19 after each cooling process again brought to its initial temperature, expediently refrigerator temperature. For this purpose, the cooling unit 2 put in the fridge for some time.

The previously described ventilation opening at the interface between the cooling unit 2 and the filling vessel 3 is in a perspective detail view in 4 shown. 4 shows the inlet side 11 of the cooling unit 2 with his bottom 22 and its inlet 23 , The floor 22 is to the inlet opening 23 formed funnel-shaped. One penetrates the internal thread section and into the ground 22 engaging notch 24 serves as a way of letting in ambient air into the inlet side 11 of the cooling unit 2 connected filling vessel 3 at its emptying.

5 shows the outlet side 12 of the cooling unit 2 with its outlet opening 25 passing through a slider 26 can be closed. The slider 26 can over the outlet opening 25 be pushed when the chiller 2 with the outlet side 12 down, for example, to cool the coolant contained therein 19 is turned off in a refrigerator. At the interface between the refrigeration unit 2 and the collecting vessel 4 is a vent 27 provided by the entry of the cooled liquid in the collecting vessel 4 to let displaced air escape.

1

cooler

2

cooling unit

3

filling vessel

4

collecting vessel

5

opening

6

opening

7

neck section

8th

neck section

9

Externally threaded section

10

Externally threaded section

11

inlet side

12

outlet side

13

cooling line

14

connection

15

connection

16

half shell

17

half shell

18

shutter

19

coolant

20

water

21

Area

22

ground

23

inlet port

24

score

25

Auslassöftnung

26

pusher

27

vent

Claims (8)

Device for cooling a hot liquid food, in particular water ( 20 ) to a drinking temperature, comprising a coolant ( 19 ) containing cooling unit ( 2 ) with one through the coolant ( 19 ), an inlet for introducing the hot liquid and a spout for the cooled liquid having cooling line ( 13 ), characterized in that the device ( 1 ) at least one to the end side of the cooling unit ( 2 ) with the inlet with its opening ( 5 ) connectable and by connecting to the cooling unit ( 2 ) closable filling vessel ( 3 ) with a defined filling volume, wherein for the purpose of connecting the filling vessel ( 3 ) to the refrigeration unit ( 2 ) both parts each have complementary cooperating connecting elements ( 9 ), so that from a filling vessel ( 3 ) and the cooling unit ( 2 ) for the process of cooling a figurative entity ( 1 ) can be formed and, depending on the defined, from the filling vessel ( 3 ) in the inlet of the cooling unit ( 2 ), the temperature and the amount of refrigerant in the refrigeration unit ( 2 ) contained coolant ( 19 ) the liquid with a predetermined within narrow limits temperature from the outlet of the cooling unit ( 2 ) exit. Cooling device according to claim 1, characterized in that the cooling unit ( 2 ) at its inlet side ( 11 ) for connecting a filling vessel ( 3 ) an internally threaded portion and the at least one filling vessel ( 3 ) has a corresponding external thread section ( 9 ) having. Cooling device according to claim 1 or 2, characterized in that at the interface between the cooling unit ( 2 ) and the filling vessel ( 3 ) a ventilation opening ( 24 ) is arranged. Cooling device according to claim 3, characterized in that the ventilation opening in the manner of one of the connecting elements of the inlet side ( 11 ) of the refrigeration unit ( 2 ) sweeping notch ( 24 ). Cooling device according to one of claims 1 to 4, characterized in that the cooling unit ( 2 ) at its side with the outlet via connection means for connecting a collecting vessel ( 4 ) for collecting the cooled liquid and the device ( 1 ) at least one to the outlet side ( 12 ) of the cooling unit ( 2 ) connectable collecting vessel ( 4 ) assigned. Cooling device according to claim 5, characterized in that the respective complementary threaded portions for connecting a filling vessel ( 3 ) or a collecting vessel ( 4 ) to the refrigeration unit ( 2 ) have a different diameter. Cooling device according to claim 5 or 6, characterized in that at the interface between the cooling unit ( 2 ) and the collecting vessel ( 4 ) a vent ( 27 ) is arranged. Cooling device according to one of claims 1 to 7, characterized in that the one or more filling vessels ( 3 ) are thermally isolated.