WO2020199697A1

WO2020199697A1 - Beverage insulation drum

Info

Publication number: WO2020199697A1
Application number: PCT/CN2020/000051
Authority: WO
Inventors: 张鈞胜
Original assignee: 东莞鋐霖商贸有限公司
Priority date: 2019-03-29
Filing date: 2020-03-18
Publication date: 2020-10-08
Also published as: CN209758025U

Abstract

Provided is a beverage insulation drum; the drum body (1) is movably inserted in an inner container (2), the inner container (2) providing an accommodating chamber for storing a beverage; the bottom of the drum body (1) is also connected to a refrigeration apparatus (3) by means of a detachable structure; the refrigeration apparatus (3) has a temperature conductor (31); the temperature conductor (31) is joined with the inner container (2) via a conductive through-hole reserved in the drum body (1), such that the refrigeration apparatus (3) can thermally insulate and heat or cool the beverage stored in the inner container by means of the inner container (2). in the insulation drum, the refrigeration apparatus can thermally insulate and heat or cool the beverage stored in the inner container by means of the inner container; the invention has a simple structure, has a small footprint, and is easy to mount and use; the drum body and the refrigeration device can be separated for convenient cleaning and maintenance, and the inlet air and outlet air are effectively separated, improving the operating efficiency of the refrigeration device.

Description

Beverage insulation barrel

Technical field:

The utility model relates to the technical field of beverage storage containers, in particular to a beverage insulation barrel.

Background technique:

At present, beverages have become indispensable consumer goods in people's lives. There are many types of beverages, such as juice, cola, soy milk, milk, coffee, tea and so on. For the beverages sold, corresponding preservation is generally required. The beverage insulation barrel is a container used to store and keep the beverage warm, so that the beverage maintains a proper temperature and taste. It is commonly found in various beverage sales points. However, the beverage insulation barrel in the prior art is simply insulated by the insulation layer, and lacks hot and cold heating. However, in real life, different consumers have different requirements for the temperature of the beverage, and the beverage temperature needs to be flexibly adjusted. In order to meet people's demand for beverage temperature, the existing beverage insulation barrel needs further improvement.

Utility model content:

The purpose of the utility model is to overcome the defects of the prior art, provide a beverage insulation barrel, realize cold and hot heating, and meet people's requirements for beverage temperature.

In order to achieve the above purpose, the present utility model adopts the following technical solutions:

A heat preservation barrel for beverages has a barrel body, the barrel body is movably embedded in an inner liner, and the inner liner provides a storage cavity for beverages; the bottom of the barrel body is also connected to a refrigeration device through a detachable structure. The device has a temperature conductor, which is attached to the inner tank through the conductive through hole reserved in the barrel body, so that the refrigeration device can heat the beverage stored in the inner tank through the inner tank and heat the beverage stored in the inner tank.

The above solution is further: the barrel body and the refrigerating device are in a combined relationship of upper and lower layers, the inner liner is embedded in the barrel body from top to bottom, and the refrigerating device has a refrigerating shell connected to the barrel body and a semiconductor refrigeration assembled in the refrigerating shell The bottom of the refrigeration shell is provided with an air inlet that cooperates with the cooling fan, and the periphery of the refrigeration shell is provided with an air outlet to form an intermediate suction and a peripheral exhaust.

The above solution is further: an air guiding structure is provided on the outside of the bottom of the refrigeration shell, and the air guiding structure separates the air from the air inlet and the air outlet.

The above solution is further: the air guiding structure is composed of two supporting legs that can be symmetrically expanded, and the sides of the two supporting legs are respectively hinged to the refrigeration housing, and the open sides of the two supporting legs are respectively provided with inlets. The wind recess, the suction direction of the air inlet recess is different from the air outlet direction of the air outlet.

The above solution is further: the upper side of the semiconductor cooling fin is attached and connected to the temperature conductor, the lower side of the semiconductor cooling fin is attached and connected to the radiator, the lower side of the radiator is connected to the cooling fan, and the air inlet of the air inlet is perpendicular to the radiator Down side.

By improving the structure of the beverage insulation barrel, the utility model has the following beneficial effects:

1. The refrigerating device heats the beverage stored in the inner container through the inner container to meet people's requirements for the temperature of the beverage.

2. Simple structure, small footprint, easy installation and use, the barrel body and refrigeration device can be separated, which is convenient for cleaning and maintenance.

3. The use of semiconductor refrigeration can reduce the volume, power consumption and noise of the refrigeration device, save energy and environmental protection, optimize the structure of the product, and effectively separate the inlet and outlet air, improve the working efficiency of the refrigeration device, reduce operating costs, and have a higher Practical value, suitable for promotion and use.

Description of the drawings:

Figure 1 is a schematic structural diagram of a preferred embodiment of the utility model;

Fig. 2 is an enlarged schematic diagram of a partial structure of the embodiment of Fig. 1.

detailed description:

Hereinafter, the concept, specific structure and technical effects of the utility model will be further explained in conjunction with the accompanying drawings, so as to fully understand the purpose, features and effects of the utility model.

It should be noted that in the description of the present invention, the terms "up", "down", "left", "right", "vertical", "horizontal", "inner", "outer" and other directions indicate directions The term or positional relationship is based on the direction or positional relationship shown in the drawings. This is only for ease of description, and does not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot It is understood as a limitation of the utility model.

Refer to Figures 1 and 2, which are schematic diagrams of preferred embodiments of the present utility model. The present utility model relates to a beverage insulation barrel, which has a barrel body 1, and the barrel body 1 is movably embedded in the inner liner 2, and the inner liner 2 Provide a cavity for storing beverages. The bottom of the barrel body 1 is also connected to a refrigerating device 3 through a detachable structure. The refrigerating device 3 has a temperature conductor 31 that fits the inner liner through a conductive through hole reserved for the barrel body 1 2. Realize that the refrigerating device 3 heats the beverage stored in the liner through the liner 2 and heats the beverage stored in the liner to meet people's requirements for the temperature of the beverage.

Referring to Figures 1 and 2, this embodiment further is that the beverage insulation barrel is a vertical body, and the barrel body 1 and the refrigeration device 3 are in an upper and lower layer combination relationship, which is convenient for installation and use. The refrigeration device 3 is located on the lower layer to meet While controlling the temperature of cooling and heating, it also supports the load bearing function. The entire unit occupies a small space and is convenient for layout and implementation. The inner liner 2 is embedded into the barrel body 1 from top to bottom, which is convenient to take and place. An insulation layer can be appropriately provided between the outer periphery of the inner liner 2 and the barrel body 1 to improve the heat preservation effect. In this embodiment, the inner container 2 is assembled with the barrel body 1 in a movable embedding manner, which is convenient for disassembly and assembly, and is convenient for cleaning and maintenance. The corresponding part of the bottom end of the liner 2 fits the temperature conductor 31 of the refrigeration device 3 through the conductive through hole reserved in the barrel body 1 to reach the surface-attached transfer temperature, which can cool the beverage inside the liner 2 to below normal temperature The following temperature or heating to a temperature higher than normal temperature. The upper end of the liner 2 is provided with an openable top cover 4 to facilitate the refilling of beverages. The corresponding side of the liner 2 is provided with a beverage supply hole, and a control valve 5 is appropriately combined on the beverage supply hole. The specific valve form is here Unlimited.

Referring to Figures 1 and 2, this embodiment further is that the refrigeration device 3 further has a refrigeration housing 32 and a semiconductor refrigeration fin 33 assembled in the refrigeration housing 32, a radiator 34, a radiating fan 35 and a corresponding refrigeration drive . The refrigerating shell 32 has a U-shaped structure, and the upper port is connected to the lower end of the barrel body 1, and is connected and connected by a removable structure such as a sleeve, a buckle, or a lock to form a whole. The bottom of the refrigeration shell 32 is provided with an air inlet 321 that cooperates with the cooling fan 35, and the periphery of the refrigeration shell 32 is provided with an air outlet 322 to form an intermediate suction and a peripheral exhaust. An air guiding structure is provided on the outside of the bottom of the refrigeration shell 32, which separates the air from the air inlet 321 and the air outlet 322 to avoid mixing of inlet and outlet air, thereby improving the working efficiency of the refrigeration device and reducing operating costs . The upper side of the semiconductor refrigeration fin 33 is attached and connected to the temperature conductor 31, the lower side of the semiconductor refrigeration fin 33 is attached and connected to the radiator 34, the lower side of the radiator 34 is connected to a cooling fan 35, and the air inlet of the air inlet 321 is vertical for heat dissipation The lower side of the device 34. The structure adopts semiconductor refrigeration to reduce the volume, power consumption and noise of the refrigeration device, saves energy and protects the environment, optimizes the structure of the product, reduces the production cost, has high practical value, and is suitable for popularization and use.

Referring to Figs. 1 and 2, this embodiment is further in that the air guiding structure is composed of two supporting legs 36 that can be symmetrically opened and standing on the side. The two supporting legs 36 are respectively hinged to the refrigeration housing 32 on the side away from each other. The open sides of the two supporting legs 36 are respectively provided with an air inlet recess 361, and the suction direction of the air inlet recess 361 is different from the air outlet direction of the air outlet 322. The structure is simple. The two supporting legs 36 stand symmetrically to each other to realize the load bearing and support while forming an air duct, thereby separating the air from the air inlet 321 and the air outlet 322 to avoid mixing of the air inlet and outlet. The air inlet recess 361 The direction of the air suction is different from the direction of the air outlet 322 to ensure the effectiveness of the air intake and good working conditions.

As shown in FIG. 1, a further aspect of this embodiment is that an LCD display screen 6 is provided on the peripheral surface of the barrel body 1, and the LCD display screen 6 is electrically connected to the refrigeration device 3, and the LCD display screen 6 provides a corresponding man-machine Interface, and can obtain intuitive temperature display. The semiconductor refrigeration sheet 33 works according to an external input command or a signal output by a temperature sensor that senses the temperature of the beverage in the inner tank, and has the characteristics of intelligence.

It can be seen from the above that the effects of the present utility model are:

3. The use of semiconductor refrigeration can reduce the volume, power consumption and noise of the refrigeration equipment, save energy and environmental protection, optimize the structure of the product, and effectively separate the inlet and outlet air, improve the working efficiency of the refrigeration device, reduce the operating cost, and have a higher Practical value, suitable for promotion and use.

Of course, the present utility model can also have various other embodiments. Without departing from the spirit and essence of the present utility model, those skilled in the art can make various corresponding changes and modifications according to the present utility model, but These corresponding changes and deformations should belong to the protection scope of the appended claims of the present utility model.

Claims

A heat preservation barrel for beverages, characterized in that it has a barrel body (1), the barrel body (1) is movably embedded in an inner liner (2), and the inner liner (2) provides a cavity for storing beverages; The bottom of the main body (1) is also connected to a refrigeration device (3) through a detachable structure. The refrigeration device (3) has a temperature conductor (31) which is reserved through the barrel body (1) The conductive through-holes are attached to the inner tank (2), so that the refrigerating device (3) can heat and heat the beverage stored in the inner tank through the inner tank (2).
The beverage insulation barrel according to claim 1, characterized in that: the barrel body (1) and the refrigeration device (3) are in a combined relationship of upper and lower layers, and the inner container (2) is embedded in the barrel body from top to bottom (1) The refrigeration device (3) has a refrigeration shell (32) connected to the barrel body (1), and a semiconductor refrigeration fin (33), a radiator (34), and a cooling fan assembled in the refrigeration shell (32) (35), the bottom of the refrigeration shell (32) is provided with an air inlet (321) that works with the cooling fan (35), and the periphery of the refrigeration shell (32) is provided with an air outlet (322) to form an intermediate suction, Exhaust air around.
The beverage insulation barrel according to claim 2, characterized in that: the bottom outside of the refrigeration shell (32) is provided with an air guiding structure, which separates the air inlet (321) and the air outlet (322) wind of.
The beverage insulation barrel according to claim 3, characterized in that: the air guide structure is composed of two supporting legs (36) that can be symmetrically opened and standing, and the two supporting legs (36) are separated from the side The refrigeration shell (32) is hinged, and the open sides of the two legs (36) are respectively provided with an air inlet recess (361), the suction direction of the air inlet recess (361) and the outlet of the air outlet (322) The wind direction is different.
The beverage insulation barrel according to claim 2, characterized in that: the upper side of the semiconductor refrigeration sheet (33) is attached and connected to the temperature conductor (31), and the lower side of the semiconductor refrigeration sheet (33) is attached and connected The radiator (34), the lower side of the radiator (34) is connected with a cooling fan (35), and the air inlet of the air inlet (321) is perpendicular to the lower side of the radiator (34).