CN105066506A - Semiconductor refrigeration structure of soda water cup - Google Patents

Abstract

The invention discloses a semiconductor refrigeration structure of a soda water cup. The wall of the cup is provided with an interlayer of a cold air backflow channel. A refrigeration chamber of a refrigeration device and an airflow chamber of a heat dissipation device of a semiconductor refrigeration plate are communicated with an air inlet and an air outlet of the cold air backflow channel respectively. A fan makes cold airflow of a cold source generated in the refrigeration chamber rotate in the cold air backflow channel in the wall of a cup body. A guide tube communicated with a cup wall exhaust hole is arranged at the bottom of the airflow chamber. A soda water making mechanism is detachably connected with the cup body and forms the soda water cup with the rapid soda water making and cooling functions through the cooperation of a storage bin, a metering panel and a discharging plate. The semiconductor refrigeration structure is high in soda water making speed, good in refrigeration effect, capable of making soda water at any time and providing the soda water for a user instantly, safe and sanitary.

Description

A kind of semiconductor refrigeration structure of carbonated drink cup

Technical field

The present invention relates to a kind of container for drink, especially relate to a kind of semiconductor refrigeration structure of carbonated drink cup.

Background technology

Drink soda summer and have a kind of refrigerant sensation, because containing a large amount of carbon dioxides in soda, carbon dioxide can take away the heat in body, the effect that playing relieves summer heat quenches one's thirst, so liking quite by everybody.Soda commercially available is at present all by being filled with carbon dioxide under certain conditions, make carbon dioxide and beverage mixing, in order to improve color, smell and taste and extend the pot life, pigment, additive and anticorrisive agent is added in beverage, if people often drink, certain harm certainly will be caused to health.In soda, sugar content is high simultaneously, can not eat again the colony containing confectionery, but hang back for hobby soda.In order to address this problem, applicant has invented a kind of speed automatically soda cup processed, (notification number: CN203935062), it is made up of cup body and preparation portion and lid, metering plate and bank is provided with in preparation portion, bank inner chamber is provided with Zhi Qi raw material issuing room and Zeng Wei issuing room and flavouring issuing room, the charging hole of each issuing room and the dosing hole set by metering plate and cooperatively interact between the discharge opening of base plate, raw material in charging hole enters into dosing hole, make the batching obtaining required ratio in dosing hole, raw material in dosing hole enters into the beverage in cup from the discharge opening of base plate, automatically the soda containing carbon dioxide of various taste is made.Although this goblet can produce soda, preparation speed is fast, and now system is now drunk at any time.But, also there are some structural defects, cause feed unstable, affect aerogenesis effect, can not freeze.

Summary of the invention

The object of the invention is for existing deficiency, provide a kind of and prepare carbon dioxide drink and carry out the carbonated drink cup that freezes.

To achieve the above object, the technical solution adopted for the present invention to solve the technical problems is: a kind of semiconductor refrigeration structure of carbonated drink cup, comprise glass body and steam turbine structure processed and refrigerating plant, cup body connects dismountable steam turbine structure processed, the material storing room of steam turbine structure processed, metering disk is connected by axle successively with discharge port plate, the two ends of ring spring connect metering disk and discharge port plate, batching input port bottom material storing room and the dosing hole of metering disk are on the same axis, after metering disk rotates by external force, the axes coincide of the pivot center of the dosing hole on metering disk and the discharge opening of discharge port plate, chute on discharge port plate extends to and is provided with in the discharge opening of sealing ring, the hush panel being arranged in chute is sealed in discharge opening, described refrigerating plant connects the bottom of cup body, cold air backflow road is provided with in the interlayer of described cup body wall, cup bottom inwardly concaves, air inlet and the gas outlet in cold air backflow road is provided with in the both sides of recess, the cool room of described refrigerating plant communicates with air inlet, cool guiding block in cool room is placed in recess, airflow fan is arranged on air inlet, heat abstractor is provided with outside semiconductor chilling plate, the airflow chamber of heat abstractor communicates with gas outlet, the bottom of airflow chamber is provided with the guide wire leading to wall of cup steam vent, the socket of automatic temperature controller and power control system and circumscripted power line is provided with in cup base.

The shell body of described steam turbine structure processed is that top and the bottom are flexibly connected, and the top inner chamber of steam turbine structure processed is at least provided with two material storing room, and material storing room is bucket-shaped.

In described metering disk, the volume size of dosing hole designs by the requirement of the various pulp furnish in material storing room.

Described cup body outer wall is provided with heat-insulation layer.

Power switch is provided with outside described cup base.

After adopting said structure, the top of cup body is connected with steam turbine structure removable seal processed, and the bottom of cup body is connected with refrigerating plant.The wall of cup of cup body is sandwich-like, and cold air is lowered the temperature to beverage in cup in the backflow road of interlayer.Refrigerating plant adopts semiconductor chilling plate as extraordinary low-temperature receiver, and semiconductor chilling plate is the feature according to pyroelectric effect technology, adopts particular semiconductor material thermoelectric pile to freeze, without any need for cold-producing medium, can continuous operation, there is no rotary part, can not gyroscopic action be produced.Low-temperature receiver in refrigerating plant cool room makes cold airflow turn round in the backflow road of cup body wall by fan, reaches and lowers the temperature to the beverage in cup, and beverage temperature controls 1 ° of-6 ° of mouthfeel better, and Automatic Temperature Control controls the temperature of refrigeration.The bottom of airflow chamber is provided with leads to a glass guide wire for body steam vent, in case the internal structure erosion of dew.

Carbon dioxide in beverage, is made by the chemical reaction of citric acid and sodium acid carbonate and water.The operation of steam turbine structure processed is by completing by hand, citric acid and sodium acid carbonate is placed in the material storing room of steam turbine structure processed, when inactive state, batching input port bottom material storing room and the dosing hole on metering disk are on same axis, raw material in material storing room flow in dosing hole automatically, because material storing room is bucket-shaped, its surrounding cliff does not occur the phenomenon of being detained raw material, the inner chamber of dosing hole is made to enter raw material abundant, quantitatively accurately.The volume size of each dosing hole designs according to the ratio of pulp furnish aequum, and the ratio of citric acid and sodium acid carbonate and water is 0.9:0.6:100.After the top rotating steam turbine structure processed makes the pivot center of the dosing hole on metering disk and the dead in line of discharge opening, raw material this moment in dosing hole enters into discharge opening rapidly, when external force stops the twisting to top, metering disk is under the effect of ring spring, dosing hole on metering disk automatically resets and to keep on the same axis with input port of preparing burden, raw material in material storing room is automatic again to be flow in dosing hole from batching input port, waits for next time and continues to use.Hush panel opens discharge opening when being subject to External Force Acting, but after losing External Force Acting, under the action of the spring, automatically resets and seal discharge opening, makes discharge opening keep sealing state all the time.Citric acid in each discharge opening and sodium acid carbonate enter in cup and water generation chemical reaction successively, and the carbon dioxide of generation and beverage mixing, become soda goods.After soda is lowered the temperature by refrigerating plant, make mouthfeel better.

Advantage of the present invention is: 1. refrigerating plant is without any need for cold-producing medium, does not have pollution sources, does not produce harm to environment, and power consumption is economized.2. the airflow chamber of heat abstractor communicates with gas outlet, reduces the temperature difference of hot and cold air, prevents dew condensation phenomenon.3. discharge opening is hermetically-sealed construction, and moisture cannot enter in steam turbine structure processed, and make the de-material of steam turbine structure internal structure processed rapidly clean, the raw material in material storing room keeps dry, and improves storage time; 4. material storing room is bucket-shaped, and its perisporium is not detained raw material, and make to enter raw material in dosing hole abundant, quantitatively accurately, aerogenesis is effective.5. easy to operate, all-ages, manufacturing speed is fast, can show system at any time and now drink, and according to oneself hobby, is mixed with the soda that taste is liked, safety and sanitation.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the structural representation of A portion refrigerating plant in Fig. 1.

Fig. 3 is the structural representation of steam turbine structure processed.

Fig. 4 is the structural representation of metering disk.

Fig. 5 is the structural representation of discharge port plate.

Fig. 6 is batching input port and dosing hole schematic diagram on the same axis.

Fig. 7 is the schematic diagram of the pivot center of dosing hole and the axes coincide of discharge opening.

Below in conjunction with drawings and embodiments, the present invention is described in further detail.

Detailed description of the invention

As shown in Figure 1, 2, a kind of semiconductor refrigeration structure of carbonated drink cup, comprise glass body 1 and steam turbine structure 3 processed and refrigerating plant 2, the end suitable for reading of cup body connects dismountable steam turbine structure 3 processed, and the lower end of cup body connects refrigerating plant 2, and the shell body of described steam turbine structure 3 processed is that top 36 and bottom 37 connect and form, the top 36 of steam turbine structure 3 processed can be rotated, top 36 inner chamber is provided with material storing room 31 and metering disk 32, and bottom 37 inner chamber of steam turbine structure 3 processed is provided with discharge port plate 34, and bottom 37 and cup body 1 are to be threaded.Material storing room 31 in the top 36 of steam turbine structure 3 processed is connected by axle 35 with the discharge port plate 34 in bottom 37 successively with metering disk 32.The body wall of described cup body 1 is provided with the interlayer in cold air backflow road 11, cold air is lowered the temperature to beverage in cup in the cold air backflow road 11 of interlayer, cup body outer wall is provided with heat-insulation layer 13, inwardly concave bottom cup body 1, refrigerating plant 2 is positioned at below recess 12, be provided with the socket 43 of automatic temperature controller 41 and power control system 42 and circumscripted power line in cup base 4, outside cup base, be also provided with power switch 44.

As shown in Figure 1, 2, the body wall of described cup body 1 is provided with the interlayer in cold air backflow road 11, recess 12 both sides bottom cup body are provided with air inlet 14 and the gas outlet 15 in wall of cup cold air backflow road 11, the cool guiding block 27 of described refrigerating plant 2 is placed in recess 12, the airflow chamber 22 of the heat abstractor 24 of semiconductor chilling plate 23 communicates with gas outlet 15, the cup body wall of heat abstractor 24 side is provided with the steam vent 221 of discharges heat, and the bottom of airflow chamber 22 is provided with leads to a glass guide wire for body steam vent 221 25.Air inlet 14 is positioned at cool guiding block 27 side of cool room 21, and air inlet 14 is provided with airflow fan 26, and cold airflow is blown in the cold air backflow road 11 of glass body wall by airflow fan 26, and cold air is lowered the temperature to beverage in cup in backflow road.

As shown in Figure 3,4, the top 36 of steam turbine structure 3 processed is at least provided with two material storing room 31, is set to two material storing room 31 in the present embodiment figure, and material storing room 31 is bucket-shaped, is provided with batching input port 311 bottom it.Metering disk 32 is provided with two dosing holes 321 matched with the batching input port 311 bottom material storing room 31, and upper plane and the material storing room 31 exterior bottom wall plane of metering disk 32 are closely affixed.The two ends of ring spring 39 connect the discharge port plate 34 of metering disk 32 and bottom 37, and the top 36 twisting steam turbine structure 3 processed makes metering disk 32 rotate, and after decontroling the top 36 of steam turbine structure 3 processed, metering disk 32 resets under the effect of ring spring 39.

As shown in Figure 6,7, metering disk 32 is without under External Force Acting, and the batching input port 311 bottom material storing room 31 and the dosing hole 321 on metering disk 32 are on same axis a, and the diameter of batching input port 311 is greater than the diameter of dosing hole 321.Raw material in material storing room 31 flow in dosing hole 321 automatically, and the volume size of dosing hole 321 designs by the requirement of the various pulp furnish in material storing room 31.The top 36 twisting steam turbine structure 3 processed makes metering disk 32 rotate, the axis b of the discharge opening 341 on the pivot center of the dosing hole 321 on metering disk 32 and adjacent discharge port plate 34 coincides, automatically entered into the discharge opening 341 of discharge port plate 34 in each dosing hole 321 by the raw material that proportioning is quantitative this moment, the lower plane of metering disk 32 and the upper plane of discharge port plate 34 are closely affixed, make the raw material of metering disk 32 when rotated in dosing hole 321 along discharge port plate 34 planar movement, keep quantitatively accurately.After the top 36 of steam turbine structure 3 processed is not subject to External Force Acting, metering disk 32 automatically resets under the effect of ring spring 39, and the raw material in material storing room 31 continues again to flow in dosing hole 321 from batching input port 311.

As shown in Fig. 3,4,5, the bottom 37 of steam turbine structure 3 processed is provided with discharge port plate 34, and discharge opening 341 magnitude setting on discharge port plate 34 is equal with dosing hole 321 magnitude setting on metering disk 32, and the diameter of discharge opening 341 is greater than the diameter of dosing hole 321.Chute 343 is provided with in the side of discharge opening 341, chute 343 extends in discharge opening 341, chute 343 in discharge opening 341 is provided with sealing ring 345, hush panel 342 slides in chute 343, hush panel 342 is connected with spring 344, hush panel 342 is under the effect of spring 344, all the time be sealed in discharge opening 341, hush panel 342 is circumscribed with push button 346, push button 346 is positioned at outside the shell body of bottom 37, promoting push button 346 makes hush panel 342 be moved in the chute 343 of discharge opening 341 side from discharge opening 341, when finger leaves push button 346, hush panel 342 automatically extend in discharge opening 341 under the effect of spring 344, discharge opening 341 is sealed.

The end suitable for reading of cup body 1 is connected with steam turbine structure 3 removable seal processed, and the bottom of cup body 1 is connected with refrigerating plant 2.The wall of cup of cup body 1 is sandwich-like, and cold air is lowered the temperature to beverage in cup in the cold air backflow road 11 of interlayer.Refrigerating plant 2 adopts semiconductor chilling plate 23 as extraordinary low-temperature receiver, and semiconductor chilling plate is the feature according to pyroelectric effect technology, adopts particular semiconductor material thermoelectric pile to freeze, without any need for cold-producing medium, can continuous operation, there is no rotary part, can not gyroscopic action be produced.Low-temperature receiver in refrigerating plant 2 cool room 21 makes cold airflow turn round in the cold air backflow road 11 of cup body wall by airflow fan 26, and reach and lower the temperature to the beverage in cup, automatic temperature controller 41 controls the temperature of refrigeration.The bottom of airflow chamber 22 is provided with leads to a glass guide wire for body steam vent 221 25, in case the internal structure erosion of dew.

Carbon dioxide in beverage, is made by the chemical reaction of citric acid and sodium acid carbonate and water.The operation of steam turbine structure 3 processed is by completing by hand, citric acid and sodium acid carbonate is placed in the material storing room 31 of steam turbine structure 3 processed, when inactive state, batching input port 311 bottom material storing room 31 is on same axis a with the dosing hole 321 on metering disk 32, raw material in material storing room 31 flows in dosing hole 321 automatically, because material storing room 31 is bucket-shaped, its surrounding cliff does not occur the phenomenon of being detained raw material, make the inner chamber input raw material of dosing hole 321 abundant, quantitatively accurately.The volume size of each dosing hole 321 designs according to the ratio of pulp furnish aequum, and the ratio of citric acid and sodium acid carbonate and water is 0.9:0.6:100.Metering disk 32 is connected with the top 36 of steam turbine structure processed, metering disk 32 is driven to rotate when rotating the top 36 of steam turbine structure processed, after the pivot center of the dosing hole 321 on metering disk 32 overlaps with the axis b of discharge opening 341, this moment, raw material in dosing hole 321 enters into rapidly discharge opening 341, when external force stops the twisting to the top 36 of steam turbine structure processed, metering disk 32 is under the effect of ring spring 39, dosing hole 321 on metering disk 32 automatically resets and remains on same axis a with input port 311 of preparing burden, raw material in material storing room 31 flow into again in dosing hole 321 automatically, wait for next time to continue to use.Hush panel 342 opens discharge opening 341 when being subject to External Force Acting, but after hush panel 342 loses External Force Acting, under the effect of spring 344, automatically resets and seal discharge opening 341, make discharge opening 341 keep sealing state all the time.

During use, after adding the drinking water of equivalent in cup body 1, bottom 37 and the cup body 1 of steam turbine structure 3 processed are tightly connected, then after the top 36 of rotation steam turbine structure processed puts in place, citric acid now in dosing hole 321 and sodium acid carbonate are sent in discharge opening 341 respectively, the top 36 of steam turbine structure processed is automatically reseting without under External Force Acting, promote the push button 346 of hush panel 342 in citric acid and sodium acid carbonate discharge opening 341 again, the water that citric acid and sodium acid carbonate are entered in glass body 1 carries out chemical reaction, the carbon dioxide produced and beverage mixing, become soda goods.Also can add fruit juice or flavor enhancement when making, being mixed with the soda meeting oneself taste.After soda makes, opening switch 44, refrigerating plant 2 freezes to the soda made.The low-temperature receiver produced in cool room 21 turns round in the cold air backflow road 11 of cup body wall, and reach and lower the temperature to the beverage in cup, generally, beverage temperature controls 1 ° of-6 ° of mouthfeel better.

Obviously; the above embodiment of the present invention is only be the preferred embodiments of the present invention; certainly can not limit the interest field of the present invention with this, therefore according to spirit of the present invention the apparent change of extending out or variation, still belong among institute of the present invention protection domain.

Claims (5)

1. the semiconductor refrigeration structure of a carbonated drink cup, comprise a glass body (1) and steam turbine structure processed (3) and refrigerating plant (2), cup body connects dismountable steam turbine structure processed, the material storing room (31) of steam turbine structure processed, metering disk (32) is connected by axle (35) successively with discharge port plate (34), the two ends of ring spring (39) connect metering disk (32) and discharge port plate (34), the batching input port (311) of material storing room (31) bottom and the dosing hole (321) of metering disk (32) are on same axis (a), after metering disk (32) rotates by external force, the axis (b) of the pivot center of the dosing hole (321) on metering disk (32) and the discharge opening (341) of discharge port plate (34) coincides, chute (343) on discharge port plate (34) extend to be provided with sealing ring (345) discharge opening (341) in, the hush panel (342) being arranged in chute (343) is sealed in discharge opening (341), described refrigerating plant (2) connects the bottom of cup body (1), it is characterized in that: in the interlayer of described cup body wall, be provided with cold air backflow road (11), cup bottom inwardly concaves, air inlet (14) and gas outlet (15) of cold air backflow road (11) are provided with in the both sides of recess (12), the cool room (21) of described refrigerating plant communicates with air inlet (14), cool guiding block (27) in cool room is placed in recess (12), airflow fan (26) is arranged on air inlet (14), heat abstractor (24) is provided with outside semiconductor chilling plate (23), the airflow chamber (22) of heat abstractor communicates with gas outlet (15), the bottom of airflow chamber (22) is provided with the guide wire (25) leading to wall of cup steam vent (221), the socket (43) of automatic temperature controller (41) and power control system (42) and circumscripted power line is provided with in cup base (4).

2. the semiconductor refrigeration structure of a kind of carbonated drink cup according to claim 1, it is characterized in that: the shell body of described steam turbine structure (3) processed is that top and the bottom are flexibly connected, top (36) inner chamber of steam turbine structure processed is at least provided with two material storing room (31), and material storing room (31) is for bucket-shaped.

3. the semiconductor refrigeration structure of a kind of carbonated drink cup according to claim 1, is characterized in that: in described metering disk (32), the volume size of dosing hole (321) designs by the requirement of the various pulp furnish in material storing room (31).

4. the semiconductor refrigeration structure of a kind of carbonated drink cup according to claim 1, is characterized in that: described cup body (1) outer wall is provided with heat-insulation layer (13).

5. the semiconductor refrigeration structure of a kind of carbonated drink cup according to claim 1, is characterized in that: described cup base (4) outside is also provided with power switch (44).