CN202371925U - Direct energy storage type refrigerating/heating device - Google Patents

Abstract

The utility model discloses a direct energy storage type refrigerating/heating device. The direct energy storage type refrigerating/heating device comprises a main body, wherein a temperature adjusting unit and a sealed energy storage chamber are arranged on the main body; the temperature adjusting unit is used for accommodating beverage; the sealed energy storage chamber is used for loading an energy storage liquid; the temperature adjusting unit is separated from the sealed energy storage chamber; the sealed energy storage chamber is arranged around the temperature adjusting unit; and a semiconductor dynamic refrigerating/heating device used for refrigerating or heating the energy storage liquid in the sealed energy storage chamber is arranged on the main body; therefore, during the use, only by directly or indirectly putting the beverage into the temperature adjusting unit by a container, cold energy or hot energy stored in the energy storage liquid can directly enter the beverage and can be used for continuously refrigerating or heating the energy storage liquid together with the semiconductor dynamic refrigerating/heating device; therefore, the beverage is rapidly cooled or heated so that the refrigerating or heating effect on the beverage is effectively improved; moreover, refrigerators, electric heating equipments and the like are not required for use and the product is very convenient to use.

Description

The direct hot and cold device of energy storage type system

Technical field

The utility model relates to wine/beverage is freezed or the heating equipment art, refers in particular to the hot and cold device of a kind of direct energy storage type system.

Background technology

In the middle of daily life, possess better mouthfeel in order to make beverage (wine, tea, beer, carbonated drink and various fruit juice etc.), can as required beverage be freezed or heat usually, make beverage reduce or raise certain temperature and reach the positive purpose of inlet alcohol.

At present, the method that beverage is freezed has a lot, and modal is beverage bottle to be put into refrigerator or is soaked in ice bucket cool off reduction, and the method that beverage is heated then is to utilize equipment such as electric heating to carry out heat temperature raising again after beverage is poured out mostly.

Above-mentioned existing mode all can be freezed or heats beverage, yet aforesaid way is lower to beverage refrigeration or the usefulness that heats, can not apace beverage be freezed or heat, and refrigeration or heat the comparatively inconvenience of operation of process.

The utility model content

In view of this, the utility model is to the disappearance of prior art existence, and its main purpose provides the hot and cold device of a kind of direct energy storage type system, and it can effectively solve and utilize existing mode not carry out fast-refrigerating or to heat unhandy problem beverage.

For realizing above-mentioned purpose, the utility model adopts following technical scheme:

The hot and cold device of a kind of direct energy storage type system; Include main body; This main body is provided with temperature adjustment unit that is used for drinks and the airtight accumulation chamber that is used to load energy storage liquid; This temperature adjustment unit and airtight accumulation chamber are separated from one another, and airtight accumulation chamber is provided with around the temperature adjustment unit, and this main body is provided with, and the energy storage liquid that is used for airtight accumulation chamber heats or the semiconductor that freezes dynamically freezes/thermic devices.

As a kind of preferred version, said temperature adjustment unit is ccontaining cup, and this airtight accumulation chamber is looped around all sides of ccontaining cup.

As a kind of preferred version, said main body includes outer sleeve, ring cover and aforementioned ccontaining cup; This outer sleeve is arranged at the periphery of ccontaining cup; The lower end of outer sleeve is connected with the sealed installation of ccontaining cup; This ring cover is sealed to be installed and connected between the upper end of upper end and ccontaining cup of outer sleeve, and maintains the gap between this outer sleeve internal face and the ccontaining glass of outside wall surface and form aforementioned airtight accumulation chamber.

As a kind of preferred version, said outer sleeve includes annular side plate and radially dwindles extended annular bottom plate in this annular side plate bottom, this annular bottom plate and sealed fixed connection of ccontaining cup.

As a kind of preferred version, said ccontaining cup includes inner sleeve and drain pan, and the bottom end seal formula of this inner sleeve is mounted on the upper surface of annular bottom plate, the sealed lower surface that is mounted on annular bottom plate in the upper end of this drain pan.

As a kind of preferred version, the pipeline of said temperature adjustment unit for supplying beverage directly to flow through, this airtight accumulation chamber is looped around all sides of pipeline.

As a kind of preferred version, said pipeline is shape in the shape of a spiral, and the inlet place of this pipeline is provided with funnel.

As a kind of preferred version, the circuitous conduit of said temperature adjustment unit for supplying beverage directly to flow through, this airtight accumulation chamber is looped around all sides of conduit.

As a kind of preferred version, the pit of said temperature adjustment unit for supplying beverage to put, this airtight accumulation chamber is looped around all sides and the bottom of pit.

As a kind of preferred version, said pit is a plurality of pits that are arranged side by side, and communicates with each other around the airtight accumulation chamber of each pit.

The utility model compared with prior art has tangible advantage and beneficial effect, particularly, can be known by technique scheme:

One, through is provided with airtight accumulation chamber in main body; Utilize airtight accumulation chamber to be provided with and to load energy storage liquid around the temperature adjustment unit, in use, only need beverage is directly or indirectly placed the temperature adjustment unit through container; Cold energy or the thermal energy of deposit in energy storage liquid is just directly in the beverage; And cooperate utilize semiconductor dynamically freeze/thermic devices continues refrigeration to energy storage liquid or heats, and makes beverage fast cooling or intensification, effectively improved beverage refrigeration or the usefulness that heats; And need not to use equipment such as refrigerator, electric heating, product uses convenient in the extreme.

Two, through outer sleeve being arranged at the periphery of ccontaining cup; Utilize the lower end of outer sleeve to be connected with the sealed installation of ccontaining cup; And cooperate between the upper end utilize sealed upper end that is installed and connected in outer sleeve of this ring cover and ccontaining cup and form airtight accumulation chamber; Product structure is simple, assembles very very convenient.

Three, through adopting pit, and utilize airtight accumulation chamber to be looped around all sides and the bottom of pit, increased the transmission area of heat energy or cold energy, make beverage heat up more apace or lower the temperature, further raising usefulness that beverage is freezed or heats as the temperature adjustment unit.

Four, through adopting pipeline as the temperature adjustment unit; And cooperation utilizes airtight accumulation chamber to be looped around all sides of pipeline; After making that beverage flows into from inlet; The heat energy of energy storage liquid or cold energy are delivered in the pipeline, make beverage intensification or cooling back flow out from liquid outlet and supply people directly to enjoy, and the use of product is convenient.

Be architectural feature and the effect of more clearly setting forth the utility model, come the utility model is elaborated below in conjunction with accompanying drawing and specific embodiment.

Description of drawings

Fig. 1 is the assembling schematic perspective view of first preferred embodiment of the utility model;

Fig. 2 is the exploded view of first preferred embodiment of the utility model;

Fig. 3 is the partial assembly drawing of first preferred embodiment of the utility model;

Fig. 4 is the schematic perspective view that is placed with bottle in first preferred embodiment of the utility model;

Fig. 5 is the sectional view of Fig. 4;

Fig. 6 is the assembling schematic perspective view of second preferred embodiment of the utility model;

Fig. 7 is the exploded view of second preferred embodiment of the utility model;

Fig. 8 is the sectional view of second preferred embodiment of the utility model;

Fig. 9 is the assembling schematic perspective view of the 3rd preferred embodiment of the utility model;

Figure 10 is the exploded view of the 3rd preferred embodiment of the utility model;

Figure 11 is the sectional view of the 3rd preferred embodiment of the utility model;

Figure 12 is the assembling schematic perspective view of the 4th preferred embodiment of the utility model;

Figure 13 is the exploded view of the 4th preferred embodiment of the utility model;

Figure 14 is the sectional view of the 4th preferred embodiment of the utility model.

The accompanying drawing identifier declaration:

10, main body 111, inner sleeve

112, drain pan 12, outer sleeve

121, annular side plate 122, annular bottom plate

123, first fixing hole 13, ring cover

131, second fixing hole 14, loam cake

15, base plate 101, temperature adjustment unit

1011, liquid outlet 1012, inlet

1013, funnel 1014, inlet

1015, liquid outlet 102, airtight accumulation chamber

103, the first annular fixture block 104, first annular slot

105, the second annular fixture block 106, second annular slot

107, the 3rd annular fixture block 108, the 3rd annular slot

109, Fourth Ring shape fixture block 110, Fourth Ring shape draw-in groove

20, semiconductor dynamically freezes/thermic devices 21, radiating seat

22, radiator fan 23, cooling piece

30, bottle 40, box body.

The specific embodiment

Please referring to figs. 1 through shown in Figure 5, the concrete structure that it has demonstrated first preferred embodiment of the utility model includes main body 10 and dynamically freezes/thermic devices 20 with semiconductor.

This main body 10 is provided with temperature adjustment unit 101 that is used for drinks and the airtight accumulation chamber 102 that is used to load energy storage liquid, and this temperature adjustment unit 101 and airtight accumulation chamber 102 are separated from one another, and airtight accumulation chamber 102 is provided with around temperature adjustment unit 101; In the present embodiment, this temperature adjustment unit 101 is ccontaining cup, and this main body 10 includes outer sleeve 12, ring cover 13 and aforementioned ccontaining cup, wherein:

In the present embodiment, this ccontaining cup includes inner sleeve 111 and drain pan 112, certainly; This inner sleeve 111 also can be formed in one with drain pan 112 and be connected, and to exceed, this ccontaining cup is not an aluminum material; It has more preferable energy transfer efficiency, and this ccontaining cup can be used for directly placing beverage or places beverage indirectly through other containers such as bottle, cups, in present embodiment; This ccontaining cup is used for placing beverage indirectly through bottle 30, not to exceed.

This outer sleeve 12 is arranged at the periphery of ccontaining cup; The lower end of outer sleeve 12 is connected with the sealed installation of ccontaining cup; In the present embodiment, this outer sleeve 12 includes annular side plate 121 and radially dwindles extended annular bottom plate 122 in these annular side plate 121 bottoms, this annular bottom plate 122 and sealed fixed connection of ccontaining cup; Specifically say; The bottom end seal formula of aforementioned inner sleeve 111 is mounted on the upper surface of annular bottom plate 122, and the sealed lower surface that is mounted on annular bottom plate 122 in the upper end of this drain pan 112, the hollow cavity of the cavity of this drain pan 112 and inner sleeve 111 are connected to form the cavity of aforementioned ccontaining cup; And; Cooperate inserting installing and locating through the first annular fixture block 103 and first annular slot 104 between the bottom of this inner sleeve 111 and the annular bottom plate 122, this first annular fixture block 103 extends in the bottom of inner sleeve 111, and this first annular slot 104 is arranged at the upper surface of annular bottom plate 122; Certainly; This first annular fixture block 103 also can be arranged at the upper surface of annular bottom plate 122, accordingly first annular slot 104 is arranged on the bottom face of inner sleeve 111, not to exceed; Cooperate inserting installing and locating through the second annular fixture block 105 and second annular slot 106 between the upper end of this drain pan 112 and the annular bottom plate 122; This second annular fixture block 105 is arranged on the upper surface of drain pan 112; This second annular slot 106 is arranged on the lower surface of annular bottom plate 122; Certainly, this second annular fixture block 105 also can be arranged on the lower surface of annular bottom plate 122, accordingly second annular slot 106 is arranged on the upper surface of drain pan 112.

This ring cover 13 is sealed to be installed and connected between the upper end of upper end and ccontaining cup of outer sleeve 12, and maintains the gap between these outer sleeve 12 internal faces and the ccontaining glass of outside wall surface and form aforementioned airtight accumulation chamber 102; And; Cooperate inserting installing and locating through the 3rd annular fixture block 107 and the 3rd annular slot 108 between the upper end of this ring cover 13 and inner sleeve 111, the 3rd annular fixture block 107 is arranged at the upper surface of inner sleeve 111, and the 3rd annular slot 108 is arranged on the ring cover 13; Certainly; The 3rd annular fixture block 107 also can be arranged on the ring cover 13, accordingly the 3rd annular groove 108 is arranged on the inner sleeve 111, not to exceed; Cooperate inserting installing and locating through Fourth Ring shape fixture block 109 and Fourth Ring shape draw-in groove 110 between the upper end of this ring cover 13 and outer sleeve 12; This Fourth Ring shape fixture block 109 is arranged on the ring cover 13; This Fourth Ring shape draw-in groove 110 is arranged on the outer sleeve 12, and certainly, this Fourth Ring shape fixture block 109 also can be arranged on the outer sleeve 12; Accordingly Fourth Ring shape draw-in groove 110 is arranged on the ring cover 13, not to exceed; In addition; The upper end lateral margin of this outer sleeve 12 is provided with first fixing hole 123; This ring cover 13 be provided with cooperate with this first fixing hole 123 over against second fixing hole, 131, one fixture (not shown) pass this first fixing hole 123 and be connected ring cover 13 fixing with outer sleeve 12 with second fixing hole 131.

This semiconductor dynamically freezes/and thermic devices 20 is arranged on the lateral surface of main body 10; This semiconductor dynamically freezes/and thermic devices 20 can have refrigerating function separately or have heat-production functions separately or have refrigeration and heat-production functions simultaneously; Not to exceed; This semiconductor dynamically freezes/and thermic devices 20 is used for aforementioned airtight accumulation chamber 102 energy storage liquid are heated or freeze, and this semiconductor dynamically freezes/and thermic devices 20 includes radiating seat 21, radiator fan 22 and cooling piece 23; This radiating seat 21 is an aluminum material, and radiating seat 21 is fixed on the lateral surface of aforementioned ccontaining cup, and this radiator fan 22 is fixed on the radiating seat 21, and this cooling piece 23 is located between ccontaining cup and the radiating seat 21.

The course of work that present embodiment is detailed is following:

At first, inject the energy storage liquid toward airtight accumulation chamber 102, and utilize in advance semiconductor dynamically freeze/20 pairs of energy storage liquid of thermic devices freeze or heat, make the energy storage liquid phase become accordingly and be refrigerant or heating agent; Then; Bottle 30 is put into ccontaining cup; Cold energy or the thermal energy of deposit in energy storage liquid is delivered in the wine liquid in the bottle 30 through ccontaining cup; Utilize simultaneously semiconductor dynamically freeze/20 pairs of energy storage liquid of thermic devices proceed refrigeration or heat, can be fast bottle 30 interior wine liquid be freezed or heat.

Please with reference to Fig. 6 to shown in Figure 8, it has demonstrated the concrete structure of second preferred embodiment of the utility model, the concrete structure of the concrete structure of present embodiment and aforementioned first preferred embodiment is basic identical, different is for it:

In the present embodiment, this temperature adjustment unit 101 pit for supplying beverage to put, this pit can be used for directly placing beverage or places beverage indirectly through other containers such as bottle, cups; This airtight accumulation chamber 102 is looped around all sides and the bottom of pit, makes the beverage in the pit fully to be heated or freeze, and the effect of heating or refrigeration is better; And in the present embodiment, this pit is a plurality of pits that are arranged side by side; Airtight accumulation chamber around each pit communicates with each other; Make and can be disposable more beverages to be heated or freeze, raise the efficiency, and make full use of heat energy or cold energy.

And in the present embodiment, this main body 10 is cuboid, and it includes loam cake 14 and base plate 15, and aforementioned pit is arranged with formation under the surface of loam cake 14, and this airtight accumulation chamber 102 is enclosed by loam cake 14 and base plate 15 and is configured to.This semiconductor dynamically freezes/and thermic devices 20 is arranged at the bottom surface of base plate 15.

The course of work of present embodiment is identical with the course of work of aforementioned first preferred embodiment, is not described in detail in this course of work to present embodiment.

Please with reference to Fig. 9 to shown in Figure 11, it has demonstrated the concrete structure of the 3rd preferred embodiment of the utility model, the concrete structure of the concrete structure of present embodiment and aforementioned first preferred embodiment is basic identical, different is for it:

In the present embodiment, this temperature adjustment unit 101 pipeline for supplying beverage directly to flow through, this airtight accumulation chamber 102 is looped around all sides of pipeline 101; And this pipeline is shape in the shape of a spiral, and pipeline preferably is to be top-down helical form; This pipeline has liquid outlet 1011 and inlet 1012, and this liquid outlet 1011 stretches out downwards outside the main body 10, and this inlet 1012 upwards stretches out outside the main body 10; And these inlet 1012 places are provided with funnel 1013, and this funnel 1013 is towards upper shed.

And in the present embodiment, this main body 10 is the hollow square body; And form airtight accumulation chamber 102; The spiral part of this pipeline is arranged in this airtight accumulation chamber 102 fully, and after airtight accumulation chamber 102 was full of energy storage liquid, the spiral part of this pipeline was fully immersed in the energy storage liquid.

The course of work of the course of work of present embodiment and aforementioned first preferred embodiment is basic identical; Different is for it: when work; At first, after beverage poured into toward funnel 1013, beverage under the effect of gravity through the spiral part of piping; And the heat energy of energy storage liquid or cold energy see through the pipeline wall and pass to beverage, realize beverage heating or refrigeration; Then, flow out through liquid outlet 1011, just can directly supply people to enjoy through the beverage after heating or the refrigeration.

Please with reference to Figure 12 to shown in Figure 14, it has demonstrated the concrete structure of the 4th preferred embodiment of the utility model, the concrete structure of the concrete structure of present embodiment and aforementioned the 3rd preferred embodiment is basic identical, different is for it:

In the present embodiment, the circuitous conduit of this temperature adjustment unit 101 for supplying beverage directly to flow through, this airtight accumulation chamber 102 is looped around all sides of conduit; This conduit takes shape in the box body 40; This box body 40 is positioned at this airtight accumulation chamber 102, and after airtight accumulation chamber 102 was full of energy storage liquid, this box body 40 was fully immersed in the energy storage liquid; This conduit has inlet 1014 and liquid outlet 1015, and this inlet 1014 all stretches out outside the main body 10 with liquid outlet 1015.

And; In the present embodiment, this main body 10 is a rectangle housing, and this airtight accumulation chamber 102 takes shape in this rectangle housing; Aforementioned inlet 1014 and liquid outlet 1015 all stretch out the side of main body 10, and this semiconductor dynamically freezes/and thermic devices 20 is arranged at the bottom of main body 10.

The work engineering of the course of work in the present embodiment and aforementioned the 3rd preferred embodiment is basic identical, is not described in detail in this course of work to present embodiment.

The design focal point of the utility model is: at first, through be provided with airtight accumulation chamber in main body, utilize airtight accumulation chamber to be provided with and to load energy storage liquid around the temperature adjustment unit; In use; Only need beverage is directly or indirectly placed the temperature adjustment unit through container, cold energy or the thermal energy of deposit in energy storage liquid be just directly in the beverage, and cooperate utilize semiconductor dynamically freeze/thermic devices continues to freeze or heat to energy storage liquid; Make beverage fast cooling or intensification; Effectively improved the usefulness that beverage is freezed or heats, and need not to use equipment such as refrigerator, electric heating, product uses convenient in the extreme.Secondly; Through outer sleeve being arranged at the periphery of ccontaining cup; Utilize the lower end of outer sleeve to be connected with the sealed installation of ccontaining cup; And cooperate between the upper end utilize sealed upper end that is installed and connected in outer sleeve of this ring cover and ccontaining cup and form airtight accumulation chamber, product structure is simple, assembles very very convenient.Moreover, through adopting pit, and utilize airtight accumulation chamber to be looped around all sides and the bottom of pit as the temperature adjustment unit, increased the transmission area of heat energy or cold energy, make beverage heat up more apace or lower the temperature, further raising usefulness that beverage is freezed or heats.

The above; It only is the preferred embodiment of the utility model; Be not that the technical scope of the utility model is done any restriction; So every technical spirit according to the utility model all still belongs in the scope of the utility model technical scheme any trickle modification, equivalent variations and modification that above embodiment did.

Claims (10)

1. hot and cold device of direct energy storage type system; It is characterized in that: include main body; This main body is provided with temperature adjustment unit that is used for drinks and the airtight accumulation chamber that is used to load energy storage liquid; This temperature adjustment unit and airtight accumulation chamber are separated from one another, and airtight accumulation chamber is provided with around the temperature adjustment unit, and this main body is provided with, and the energy storage liquid that is used for airtight accumulation chamber heats or the semiconductor that freezes dynamically freezes/thermic devices.

2. the hot and cold device of direct energy storage type system according to claim 1 is characterized in that: said temperature adjustment unit is ccontaining cup, and this airtight accumulation chamber is looped around all sides of ccontaining cup.

3. the hot and cold device of direct energy storage type system according to claim 2 is characterized in that: said main body includes outer sleeve, ring cover and aforementioned ccontaining cup; This outer sleeve is arranged at the periphery of ccontaining cup; The lower end of outer sleeve is connected with the sealed installation of ccontaining cup; This ring cover is sealed to be installed and connected between the upper end of upper end and ccontaining cup of outer sleeve, and maintains the gap between this outer sleeve internal face and the ccontaining glass of outside wall surface and form aforementioned airtight accumulation chamber.

4. the hot and cold device of direct energy storage type system according to claim 3 is characterized in that: said outer sleeve includes annular side plate and radially dwindles extended annular bottom plate in this annular side plate bottom, this annular bottom plate and sealed fixed connection of ccontaining cup.

5. the hot and cold device of direct energy storage type system according to claim 4; It is characterized in that: said ccontaining cup includes inner sleeve and drain pan; The bottom end seal formula of this inner sleeve is mounted on the upper surface of annular bottom plate, the sealed lower surface that is mounted on annular bottom plate in the upper end of this drain pan.

6. the hot and cold device of direct energy storage type system according to claim 1 is characterized in that: the pipeline of said temperature adjustment unit for supplying beverage directly to flow through, this airtight accumulation chamber is looped around all sides of pipeline.

7. the hot and cold device of direct energy storage type system according to claim 6, it is characterized in that: said pipeline is shape in the shape of a spiral, and the inlet place of this pipeline is provided with funnel.

8. the hot and cold device of direct energy storage type system according to claim 1 is characterized in that: the circuitous conduit of said temperature adjustment unit for supplying beverage directly to flow through, this airtight accumulation chamber is looped around all sides of conduit.

9. the hot and cold device of direct energy storage type system according to claim 1 is characterized in that: the pit of said temperature adjustment unit for supplying beverage to put, this airtight accumulation chamber is looped around all sides and the bottom of pit.

10. the hot and cold device of direct energy storage type system according to claim 9 is characterized in that: said pit is a plurality of pits that are arranged side by side, and communicates with each other around the airtight accumulation chamber of each pit.

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