JP3246488U - Rapid Cooler - Google Patents

Abstract

[Problem] To provide a rapid cooler capable of rapidly cooling liquid in a can container. [Solution] A rotating device 2 is provided for mounting and rotating a container 1 to be cooled, and the rotating device is installed in a cooling space 3. The rotating device rotates the container to be cooled in the cooling space. By rotating the container to be cooled, which contains liquid, in the cooling space, the liquid in the container flows, promoting thermal conduction and convection, and all of the liquid in the container to be cooled can be rapidly cooled, shortening the cooling time from one hour required by a conventional refrigerator to several minutes to tens of minutes. In addition, the structure of the entire device is relatively simple, the cost is low, a compact design is possible, and a DC power source can be used, making it possible to quickly cool drinks and the like anywhere with ease. [Selected Figure] Figure 3

Description

This invention relates to a cooling device, and more particularly to a device for rapidly cooling liquid in a can container.

In the hot summer, we tend to drink a lot of cold drinks, but the existing cooling method is to cool the drinks by putting them in the refrigerator. Conventional cold drinks are made by transferring the heat of the drink to the drink's packaging container mainly by thermal conduction, but because liquids have low thermal conductivity, it often takes more than an hour for the drink to cool from room temperature. Because it takes time to cool, you cannot get a cold drink immediately unless you put it in the refrigerator beforehand.

To solve the above-mentioned shortcomings of the conventional technology, the present invention provides a rapid cooler that can rapidly cool the liquid in a can container.

This invention provides the following technical means:

The rapid cooling device is equipped with a rotating device for mounting and rotating the container to be cooled, and the rotating device is installed in the cooling space, and the rotating device rotates the container to be cooled in the cooling space.

Preferably, the rotating device is horizontal and has a pair of rotating shafts arranged in parallel, the rotating shafts are connected to a rotary drive device, and the container to be cooled is placed on the rotating shafts and rotated by the rotation of the rotating shafts.

Preferably, the rotating shaft is connected to a rotary drive device via a transmission mechanism.

Preferably, the transmission mechanism is a transmission belt stretched between the two rotating shafts and the output shaft of the drive device.

Preferably, the rotating device is vertical and includes a turntable or claw structure, the container to be cooled is placed on the turntable or is gripped and fixed by the claw structure, and the turntable or claw structure is connected to the rotation drive device.

Preferably, the cooling space is a container that contains a cooling liquid.

Preferably, the container is connected to a cooling liquid circulation system including a pump and a cooling machine, and the cooling liquid is circulated between the container and the cooling machine by the pump.
Preferably, the cooling space is a cooling pipe provided so as to surround the periphery of the container to be cooled, and the cooling pipe is connected to a cooling machine.

The advantageous effects of this invention are as follows: When a container to be cooled, which contains liquid, is placed in the cooling space and the container to be cooled is rotated, the liquid in the container flows, promoting heat conduction and convection, and all of the liquid in the container to be cooled can be cooled rapidly. The cooling time, which took more than an hour in a conventional refrigerator, is shortened to a few minutes to a dozen minutes. In addition, the structure of the entire device is relatively simple, the cost is low, a compact design is possible, and a DC power source can be used, so drinks and the like can be cooled quickly and easily anywhere.

The present invention will be described in detail with reference to the following drawings.
FIG. 1 is a schematic diagram of a structure of an embodiment of the present invention; FIG. 2 is a schematic diagram of the structure of embodiment 2 of the present invention; FIG. 2 is a front view of the rotating device and the container to be cooled according to the first embodiment. FIG. 2 is a right side view of the rotation device and the container to be cooled according to the first embodiment.

As shown in Figures 1 and 2, the rapid cooling device includes a rotating device 2 for mounting and rotating the container 1 to be cooled. The rotating device 2 is installed in the cooling space 3. The rotating device 2 rotates the container 1 to be cooled in the cooling space 3. By rotating the container 1 to be cooled, which contains liquid, in the cooling space 3, the liquid in the container flows, promoting heat conduction and convection, and all of the liquid in the container 1 to be cooled can be rapidly cooled. This shortens the cooling time, which required more than one hour in conventional refrigerators, to several minutes to several tens of minutes. In addition, the structure of the entire device is relatively simple, the manufacturing cost is low, a compact design is possible, and a DC power source can be used, so that drinks and the like can be quickly cooled anywhere with ease.

As shown in Figs. 1 to 4, the rapid cooler can be installed in various types, such as horizontal or vertical, according to various demands. In the case of a horizontal rapid cooler, as shown in Figs. 3 and 4, the rotating device 2 is horizontal, specifically, a set of rotating shafts 4 arranged in parallel, the rotating shafts 4 are connected to a rotary drive device 5, and the container 1 to be cooled is placed on the rotating shafts 4 and rotates with the rotation of the rotating shafts 4. The advantage of using a set of rotating shafts 4 arranged in parallel is that various types of containers 1 to be cooled with different diameters can be placed on them, and even if the outer shape of the container 1 to be cooled is circular or close to circular, such as wine glass bottles and various beverage bottles, it can be rotated by the rotating shafts 4. To realize the drive of the rotating shafts 4, the rotating shafts 4 can be connected to a drive device 5, such as a motor, via a transmission mechanism to realize the rotation. To simplify the entire drive mechanism, a belt transmission type can be used, that is, a transmission belt 6 is stretched between the two rotating shafts 4 and the output shaft of the drive device, and the entire drive mechanism is very simple and easy to implement.

See FIG. 2. In the case of a vertical rapid cooler, this can be achieved by a turntable or claw structure 7. When a turntable is used, the container 1 to be cooled can be placed directly on it. When a claw structure 7 is used, the top of the container 1 to be cooled can be gripped and fixed by the claw structure 7. The turntable or claw structure 7 is connected to a rotation drive 5, for example a motor, via a transmission mechanism such as a belt or gears. The advantage of using a vertical rapid cooler is that it can be applied to containers of various external shapes and does not require a circular or oval tank.

Similarly, the cooling space 3 can be realized with various different structures and cooling methods according to actual demand. For example, when a cooling method using a refrigerant is available, the cooling space 3 is a container containing a refrigerant, and the container is connected to a cooling circulation device equipped with a pump 8 and a cooling machine 9 to keep the refrigerant at a low temperature. The cooling liquid circulates between the container and the cooling machine 9 via the pump 8, thereby keeping the cooling liquid at a low temperature and allowing the container 1 to be cooled to be continuously replaced and cooled. In addition, there is a method in which a cooling pipe 10 is provided around the container 1 to be cooled, and the cooling pipe 10 is connected to the cooling machine 9 to continuously cool it. As the cooling machine 9 of the above-mentioned volume, electric cooling, compression cooling, etc. can also be adopted.

The above is merely a preferred embodiment of the present invention. The present invention is not limited to the above-mentioned embodiment, and as long as the technical effect of the present invention is realized by similar means, it includes everything within the scope of its technical ideas and principles, and any changes, modifications, or equivalent replacements and improvements from the embodiments in this specification are also included in the scope of protection of the present invention. Various modifications and changes can also be made to the technical solutions and/or implementations within the scope of protection of the present invention.

Claims (8)

A rapid cooling device comprising a rotation device (2) for mounting and rotating a container (1) to be cooled, the rotation device (2) being installed in a cooling space (3), and the rotation device (2) rotating the container (1) to be cooled in the cooling space (3). The rapid cooling device according to claim 1, characterized in that the rotating device (2) is horizontal and has a pair of rotating shafts (4) arranged in parallel, the rotating shafts (4) are connected to a rotary drive device (5), and the container (1) to be cooled is placed on the rotating shafts (4) and rotated by the rotation of the rotating shafts (4). The rapid cooler according to claim 2, characterized in that the rotating shaft (4) is connected to a rotary drive device (5) via a transmission mechanism. The rapid cooler according to claim 3, characterized in that the transmission mechanism is a transmission belt (6) stretched between the two rotating shafts (4) and the output shaft of the drive device. The rapid cooling device according to claim 1, characterized in that the rotating device (2) is vertical and has a turntable or claw structure (7), the container (1) to be cooled is placed on the turntable or is gripped and fixed by the claw structure (7), and the turntable or claw structure (7) is connected to the rotation drive device (5). The rapid cooler according to claim 1, characterized in that the cooling space (3) is a container that contains a cooling liquid. The rapid cooler according to claim 6, characterized in that the container is connected to a cooling liquid circulation device, which includes a pump (8) and a cooling machine (9), and the cooling liquid is circulated between the container and the cooling machine (9) by the pump (8). The rapid cooling device according to claim 1, characterized in that the cooling space (3) is a cooling pipe (10) arranged to surround the container (1) to be cooled, and the cooling pipe (10) is connected to a cooling machine (9).