CN204654467U - Active intensification cooling thermos cup - Google Patents

Abstract

The utility model relates to an active heating and cooling thermos cup, which comprises a cooperating cup cover and a cup body, wherein the cup body includes an outer casing, a thermal insulation material and a heat conduction wall which are set sequentially from the outside to the inner, wherein the outer casing and the thermal insulation material There is a gap between them and a sealed vacuum chamber is formed. The inside of the heat conduction wall is a drinking water chamber for holding liquid. There is a gap between the insulation material and the heat conduction wall to form a medium cavity. The medium cavity can be filled with a liquid whose temperature is higher or lower than that of the liquid. temperature of the heat transfer medium. The utility model can add a heat conduction medium in the medium chamber, and the temperature of the heat conduction medium and the liquid in the drinking water chamber are different, through the heat conduction wall, the energy of the heat conduction medium in the medium chamber and the liquid in the drinking water chamber can be transferred to each other, reducing the temperature difference , so as to heat or cool down the liquid in the drinking water cavity, and can effectively prolong the heat preservation effect; the vacuum cavity can well prevent the energy loss of the heat-conducting medium in the medium cavity.

Description

Active intensification cooling thermos cup

[technical field]

The utility model relates to thermos cup field, particularly relates to a kind of active intensification cooling thermos cup.

[background technology]

The skin in existing thermos cup drinking-water chamber only has one deck vacuum chamber, and role is only the temperature ensureing internal liquid, cannot reach the function of internal liquid being carried out to initiatively intensification or cooling, and temperature retention time is limited.

[utility model content]

The purpose of this utility model is to overcome problems of the prior art, provides a kind of active intensification cooling thermos cup that can change fluid temperature in cup.

In order to achieve the above object, the utility model adopts following technical scheme:

Comprise the bowl cover and cup that are connected, wherein, cup comprises outside in sheathed successively shell, insulation material and heat conducting wall, wherein, leave gap between shell and insulation material and form the vacuum chamber sealed, the inside of heat conducting wall is the drinking-water chamber of contain fluid, leaves gap between insulation material and heat conducting wall, form dielectric cavity, in dielectric cavity, be filled with heat-conducting medium.

The top of described dielectric cavity offers the L-type entrance that can open or close, and bottom offers the outlet that can open or close, and wherein, entrance is arranged on the outside of shell through vacuum chamber.

Described entrance is provided with spiral lid, exports and be supportingly provided with outlet swing handle.

The heat-conducting medium loaded in described dielectric cavity is water.

Described heat conducting wall is set to waveform.

Compared with prior art, the utility model has following useful technique effect:

The utility model is by increasing one deck heat conducting wall, dielectric cavity is defined between vacuum chamber and drinking-water chamber, the heat-conducting medium of temperature higher or lower than fluid temperature can be added in dielectric cavity, heat-conducting medium is different with the temperature of drinking-water intracavity liquid, by heat conducting wall, heat-conducting medium in dielectric cavity can be made mutually to transmit with the energy of the liquid in drinking-water chamber, reduce temperature difference, thus the liquid in drinking-water chamber is heated or lowered the temperature, change its temperature, and effectively can extend heat insulation effect; Vacuum chamber can prevent the energy of heat-conducting medium in dielectric cavity to run off well, guarantees that the energy in dielectric cavity is all conducted to the liquid of drinking-water inside, chamber by heat conducting wall.

Further, the utility model, by inlet porting and outlet, is convenient to quick-replaceable heat-conducting medium, to strengthen temperature difference, thus heats the liquid in drinking-water chamber or lowers the temperature better, extending heat insulation effect.

Further, the utility model, by arranging spiral lid and outlet swing handle, seals tight, is convenient to cause during pressure change in thermal conductive cavity in heat-conducting medium temperature change open entrance or outlet simultaneously.

Further, the utility model is by adopting water to be heat-conducting medium, and its specific heat capacity is comparatively large, is beneficial to prolongation heat insulation effect.

Further, the utility model, by heat conducting wall is set to waveform, increases the contact area with drinking-water chamber internal liquid, being conducted by energy of larger efficiency.

[accompanying drawing explanation]

Fig. 1 is perspective view of the present utility model;

Fig. 2 is side view of the present utility model;

Fig. 3 is front view of the present utility model;

Fig. 4 is top view of the present utility model;

Fig. 5 be in Fig. 4 A-A to profile.

In figure, 1-bowl cover, 2-entrance, 3-vacuum chamber, 4-dielectric cavity, 5-heat conducting wall, 6-drinks water chamber, and 7-exports, and 8-exports swing handle, 9-shell, 10-insulation material.

[detailed description of the invention]

Below in conjunction with accompanying drawing, the utility model is described in further details.

See Fig. 1 to Fig. 4, the utility model comprises the bowl cover 1 on top and the cup of bottom, and bowl cover 1 and cup are connected.

See Fig. 5, cup comprises outside in sheathed successively shell 9, insulation material 10 and heat conducting wall 5, wherein, leaves gap and vacuumize formation vacuum chamber 3 after sealing between shell 9 and insulation material 10; Heat conducting wall 5 adopts the good conductor of heat to make, and shape is set to waveform, and it is inner is drinking-water chamber 6, and drinking-water chamber 6 is for contain fluid; Leave gap between insulation material 10 and heat conducting wall 5, form dielectric cavity 4, in dielectric cavity 4, be filled with heat-conducting medium, the temperature of heat-conducting medium higher or lower than fluid temperature, can formation temperature poor, the liquid be convenient to drinking water in chamber 6 heats up or lowers the temperature; Heat conducting wall 5 adopts wavy shape configuration to be to increase the contact area with drinking-water chamber 6 internal liquid, being conducted by energy of larger efficiency.

The top of dielectric cavity 4 offers the entrance 2 that a L-type that can open or close turns shape, entrance 2 is arranged on the outside of shell 9 through vacuum chamber 3, near rim of a cup, facilitate water filling, and entrance 2 is provided with spiral lid, similar beverages bottle cap, seals tight, prevents from expanding with heat and contract with cold changing the problem that dielectric cavity 4 air pressure is difficult to open; The bottom of dielectric cavity 4 offers the outlet 7 that can open or close, and the outlet 7 supporting outlet swing handles 8 being provided with flat, are similar to the switch of gas-cooker, do not take too much space, good airproof performance, also because swing handle is longer, can produce larger torque, be convenient to turn on.Hot water is injected to dielectric cavity 4 by entrance 2, specific heat of water is utilized to hold larger, bring a large amount of heat energy into dielectric cavity 4, the good conductor of one deck heat is only had between dielectric cavity 4 and drinking-water chamber 6, heat energy imports in drinking-water chamber 6 heating realized drinking-water chamber 6 internal liquid into by heat conducting wall 5, if frozen water is injected in dielectric cavity 4 inside, also can realize cooling function to drinking-water chamber 6 internal liquid, if dielectric cavity 4 injects the liquid higher than drinking-water chamber 6 temperature in addition, temperature retention time more effectively can be extended; The utility model utilizes entrance 2 and outlet 7 can realize the repeatedly replacing of dielectric cavity internal liquid, can change the temperature of heat-conducting medium in dielectric cavity 4, realizes active heated, the effect of cooling or prolongation insulation to drinking-water chamber 6 internal liquid.

Main working process of the present utility model and principle:

Because glassware for drinking water has larger specific heat capacity, this sentences water as heat-conducting medium is example, first liquid is loaded drinking-water chamber 6, if need to heat liquid, energy by dielectric cavity 4 inside imports drinking-water chamber 6, the hot water of temperature higher than fluid temperature can be added by entrance 2, hot water enters in the dielectric cavity 4 shown in Fig. 5, then by the conduction of heat, heat the liquid of the inside, drinking-water chamber 6 shown in Fig. 5, outermost vacuum chamber 3 can guarantee that the heat conducting wall 5 that the energy in dielectric cavity 4 is all done by good conductor is conducted to drinking-water chamber 6 internal liquid; When hot water temperature reduces, close with the temperature of liquid in drinking-water chamber 6, when needing the hot water changing dielectric cavity inside, be inverted water tumbler and pass through the outlet 7 that outlet swing handle 8 opens bottom, the water of dielectric cavity 4 inside is poured out, then close outlet 7, continue through entrance 2 and inject to dielectric cavity 4 inside the hot water changed, continue heat the liquid in drinking-water chamber 6 or be incubated; In like manner, if need to lower the temperature to the liquid in drinking-water chamber 6, the energy being about to drinking-water chamber 6 internal liquid is derived, and can add the frozen water that temperature is less than fluid temperature, lower the temperature to liquid in dielectric cavity 4.

The utility model provides a kind of thermos cup of the active cooling that heats up, heat-conducting medium in dielectric cavity is transmitted mutually with the energy of the liquid in drinking-water chamber, achieve the function that existing thermos cup cannot heat drinking-water chamber liquid or lower the temperature, realize active heated or cooling under simple and crude condition, and effectively improve temperature retention time.

Claims (5)

1. an active intensification cooling thermos cup, it is characterized in that: comprise the bowl cover (1) and cup that are connected, wherein, cup comprises outside in sheathed successively shell (9), insulation material (10) and heat conducting wall (5), wherein, leave gap between shell (9) and insulation material (10) and form the vacuum chamber (3) sealed, the inside of heat conducting wall (5) is the drinking-water chamber (6) of contain fluid, gap is left between insulation material (10) and heat conducting wall (5), form dielectric cavity (4), dielectric cavity is filled with heat-conducting medium in (4).

2. one according to claim 1 active intensification cooling thermos cup, it is characterized in that: the top of described dielectric cavity (4) offers the L-type entrance (2) that can open or close, bottom offers the outlet (7) that can open or close, wherein, entrance (2) is arranged on the outside of shell (9) through vacuum chamber (3).

3. one according to claim 2 active intensification cooling thermos cup, is characterized in that: described entrance (2) is provided with spiral lid, and outlet (7) is supporting is provided with outlet swing handle (8).

4. the active intensification cooling of the one according to claim 1-3 any one thermos cup, is characterized in that: the heat-conducting medium loaded in described dielectric cavity (4) is water.

5. one according to claim 1 active intensification cooling thermos cup, is characterized in that: described heat conducting wall (5) is set to waveform.