TWM563533U - Vortex stirring mechanism for cooling water bath - Google Patents

Abstract

The utility model relates to a stirring blade and a cooling cup designing mechanism capable of stirring cooling water, which is applied to a mechanism for temperature regulation of a content of a tubular container. The device comprises: an annular cooling stirring module capable of rotating and stirring cooling water; an annular bushing supporting the cooling stirring module and interposed between the cooling cups; a cooling cup capable of placing the tubular container, and the annular cooling stirring module is internally provided The cavity can be filled with a cooling liquid; the shape of the annular cooling agitating module has a stirring blade for stirring the cooling cup, the bottom of the cooling cup is provided with a bump to support the tubular container at a plurality of points, and the tubular container is heated at a high temperature, and the container is to be cooled. Put it into the cooling cup, add water to the cooling cup to cool the water, then put the frozen annular cooling module into the cooling cup and infiltrate into the cup water, and the annular bushing is placed between the annular cooling module and the cooling cup, so that The annular cooling agitation module can reduce the friction between the cooling cup and the cooling cup when rotating, the water temperature of the cooling cup rises with the heat exchange of the high temperature container, and the water temperature is also transmitted to the annular cooling module infiltrated in the water, and is conducted. To the internal coolant of the module, the low temperature of the coolant inside the module can quickly cool the cooling water in the cooling cup, and the temperature of the cooling cup and the temperature of the high temperature container are transmitted to each other. During the high temperature vessel temperature decreases, the temperature will rise due to the heat caused by the phenomenon of hot cold state, this phenomenon is not conducive to a uniform temperature cooling vessel. The annular cooling agitation module has two functions; one is cooling: the high temperature container exchanges heat through the cooling module to rapidly drop the temperature of the container. The second is agitation: the convection of the temperature in the water is accelerated by the agitation of the radial vortex blades, so that the high temperature container is cooled on average.

Description

Eddy current stirring type water cooling mechanism

The present invention relates to a stirring blade and a cooling cup design mechanism capable of stirring cooling water, and is applied to a mechanism for temperature adjustment of the contents of a tubular container. The annular cooling module is placed in a cooling cup to cool the high temperature container with water. According to the heat conduction theory, when the annular cooling stirring module is sleeved into the tubular container, the temperature of the container and the temperature of the annular cooling stirring module are transmitted from the high temperature to the low temperature through the water. The apparatus comprises: an annular cooling module for rotatably stirring cooling water; an annular bushing supporting the cooling module and interposed between the cooling cups; and a cooling cup for placing the tubular container. The annular cooling module is internally provided with a cavity for holding the cooling liquid; the annular cooling module has a stirring blade for stirring the cooling cup. The bottom of the cooling cup is provided with a bump to support the tubular container at multiple points.

For the cooling of high-temperature liquid foods, it is generally divided into two methods: ice cooling and water cooling. Among them, ice cubes have doubts about contaminated food. When the water is cooled, the water temperature will rise, and the cooling effect will be gradually lost, and the food will be hot and cold. Another method is to place the ice in water-cooled water to keep the water cool. However, the phenomenon of hot and cold food will become more apparent. Only by continuously stirring the cooling water and keeping the cooling water at the temperature of the food can it be effectively and rapidly cooled. For example, according to the recommendations of the World Health Organization, it is necessary to use 70-degree hot water to effectively sterilize the Enterobacter sakazakii that may be present in the formula, while the temperature suitable for infants is 38-42 degrees, so the bottle must be brewed. Put it in cold water and cool it to drink. Water-cooled cooling requires agitation and water replacement is quite time consuming and Water resources. Therefore, the author is concentrating on research and using the application of theory, and proposes a creation that is reasonable in design and effective in improving the above problems.

The present invention relates to a heat conduction mechanism for solving the problem of temperature regulation of food in a tubular container in the prior art, mainly when the water is cooled by water, the related work is not only time-consuming, water-consuming, and has uneven cooling. .

A secondary object of the present invention is to provide a mechanism for cooling a tubular container without replacing the cooling water, the built-in coolant in the mechanism can be frozen and stored, and the temperature of the container can be rapidly lowered in a single device.

A further object of the present invention is to provide a relatively rapid cooling temperature conduction mechanism, wherein the metal material has a high thermal conductivity which is greater than the heat transfer coefficient of water, and thus can achieve this purpose.

A further object of the present invention is to provide a cooling cup design that can be suspended to support a tubular container, so that the temperature at the bottom of the container can also be effectively reduced.

The problem to be solved by this creation is to cool the tubular container according to the conventional use of water, and the container must be placed in water to cool; the temperature improvement effect will decrease in time, because the water outside the container will change with time to achieve internal and external temperature balance. Physical phenomenon. If you want to add cooling, you must change the water. There are many restrictions on the temperature of the water barrier.

The technical means for solving the problem, in order to achieve the above purpose, the present invention provides an annular cooling stirring module and a cooling cup design mechanism capable of freezing storage and stirring cooling water, the device comprising: a ring cooling stirring module capable of rotating and stirring cooling water An annular bushing supporting the cooling module and interposed between the cooling cups; a cooling cup for placing the tubular container; the annular cooling stirring module is internally provided with a cavity for holding the cooling liquid; and the outer shape is provided with a stirring blade for stirring and cooling The cup and the bottom of the cooling cup are provided with bumps to support the tubular container at multiple points.

Preferably, the annular cooling agitation module of the present invention can be frozen and refrigerated.

Preferably, the cooling source of the creation is set above, so that the heat flow rises above the water temperature. Drop, so that the water forms a vertical convection by the temperature difference.

Preferably, this creation does not require the replacement of water to cause the temperature of the tubular container to drop rapidly.

Preferably, the creation is made of metal and contains a cooling liquid which has a heat transfer rate faster than water, and the temperature adjustment speed is also faster than water.

Preferably, the bottom of the cooling cup of the present invention is provided with a bump to suspend the tubular container in the north, so that the temperature at the bottom of the container can be quickly dissipated.

In contrast to the prior art, the annular cooling agitation module surrounds the tubular container such that the temperature of the container rapidly drops by the water in the cooling cup.

1‧‧‧Vortex agitated water-cooling mechanism

1.1‧‧‧Circular cooling mixing module

1.1.1‧‧‧Ring cooling mixing module bump

1.1.2‧‧‧Circular cooling mixing module cover

1.1.3‧‧‧ coolant cavity

1.1.4‧‧‧Agitating blades

1.2‧‧‧Circular bushing

1.3‧‧‧Cool Cup

1.3.1‧‧‧ cup bottom bump

2‧‧‧ bottle

First picture: Plane and perspective view of the vortex-stirring water-cooling mechanism.

Second: an exploded view of the assembly of the vortex-stirring water-cooling mechanism.

Figure 3: Plane and perspective view of the bottle for the vortex-stirring water-cooling mechanism.

In order to understand the creative features, contents and advantages of the vortex-flowing water-cooling cooling mechanism and the effects that can be achieved, the authors will use the author's expressions in the form of an embodiment to explain the following. The drawings used in the text are intended for the purpose of illustration and supplementary instructions. They are not necessarily true proportions and precise configurations after the implementation of the creation. Therefore, the proportions and configuration relationships of the attached drawings should not be limited. The scope of patents in implementation will be described first.

Please refer to the first and second figures of the figure, which is the ring type cooling mixing module (1.1), annular bushing (1.2) and cooling cup (1.3) of the vortex stirring type water-cooling cooling mechanism (1). ) The perspective view and exploded view.

Please refer to the third figure in the figure, which is the bottle cooling application diagram of the vortex stirring type water-cooling cooling mechanism (1).

The ring cooling stirring module cover (1.1.2) of one of the aforementioned annular cooling stirring module (1.1), the plane is provided with a ring cooling stirring module bump (1.1.1), and the finger horizontally pushing the convex point (1.1.1) The annular cooling stirring module (1.1) is rotated into the cooling cup (1.3), and the cooling liquid chamber (1.1.3) is arranged inside to accelerate the cooling and increase the speed of heat exchange. The cooling liquid chamber (1.1.3) is provided below. There are agitating blades (1.1.4) designed as radial vortex blades, which can turbulently cool the upper part of the cooling cup (1.3) to accelerate the temperature homogenization in the water.

The annular bushing (1.2) of one of the aforementioned vortex-stirring water-cooling cooling mechanisms (1) can reduce the friction between the annular cooling stirring module (1.1) and the cooling cup (1.3).

The bottom of one of the aforementioned cooling cups (1.3) is provided with a cup bottom bump (1.3.1) which allows the container to float and cool the temperature at the bottom of the container.

In the creation of the bottle, the annular cooling mixing module (1.1) is placed on the bottle (2). The high temperature of the formula in the bottle will raise the surface temperature of the bottle, and when it comes into contact with the water in the cooling cup (1.3), the heat will be transferred to the water, and then the inner wall of the cooling cup (1.3) and the annular cooling mixing module (1.1) absorb. The coolant cavity (1.1.3) of the annular cooling agitation module has the lowest temperature of the coolant, and the metal material of the annular cooling agitation module can effectively conduct heat to the coolant for heat exchange. The heat exchange dissipates the high temperature of the bottle, and the water temperature of the cooling cup (1.3) can be continuously lowered to the internal and external temperature balance. This creation is designed to achieve rapid cooling or heating of the temperature of the tubular container. It has been experimentally proved that the bottle containing the 80 degree 120 cc solution takes 4 minutes to reach the water in the water cooling for 9 minutes; using the present invention, it can reach 42 degrees in 2 minutes and 30 seconds under the same conditions.

Looking at the above, we can see that this creation has achieved the desired effect under the previous technical structure, and it is not easy for people who are familiar with the art to think about it. Moreover, this creation has not been disclosed before the application, and it has Progressive and practical, it has already met the requirements for the creation of patents, and has submitted an application for creation according to law. You are requested to approve the creation of a patent application for this article, so as to encourage creation and to be sensible.

The embodiments described above are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement them accordingly. The scope of the patents of this creation, that is, the equivalent changes or modifications made by the authors in the spirit of this creation, shall remain covered by the scope of this creation.

Claims (6)

The utility model relates to a vortex stirring type water-cooling cooling mechanism, which comprises a stirring blade capable of stirring cooling water, and is applied to a temperature regulating structure of a content of a tubular container, which comprises: an annular cooling stirring module capable of rotating and stirring cooling water; An annular bushing that cools the agitating module and is interposed between the cooling cups; a cooling cup that can hold the tubular container. The vortex stirring type water-cooling cooling mechanism according to the first aspect of the patent application, wherein the annular cooling stirring module is matched with the convex point of the annular cooling stirring module, which facilitates horizontal shifting, so that the annular cooling stirring module rotates and accelerates the annular cooling. The agitating blades on the agitation module agitate the cooling water in a cooling cup. The vortex-stirring water-cooling cooling mechanism according to claim 1, wherein the coolant cavity of the annular cooling agitation module can be placed with a coolant to make the annular cooling agitation module have an endothermic characteristic. The vortex-stirring water-cooling cooling mechanism according to the first or the second aspect of the patent application, wherein the annular cooling stirring module, when rotating, the stirring blade inside the module can generate radial eddy current, so that the cooling cup is in the cooling cup The underwater spoiler increases the temperature conduction velocity in the water. The vortex-stirring water-cooling cooling mechanism according to claim 1, wherein the annular bushing is frictionally contacted by the annular cooling agitating module when it rotates, and the annular bushing can effectively avoid two Direct friction between the people. The vortex-stirring water-cooling cooling mechanism according to claim 1, wherein the cup bottom of the cooling cup supports the tubular container to increase the area of the bottom of the container contacting the water.