CN209235782U - Cold-hot integrated device - Google Patents
Cold-hot integrated device Download PDFInfo
- Publication number
- CN209235782U CN209235782U CN201821495154.2U CN201821495154U CN209235782U CN 209235782 U CN209235782 U CN 209235782U CN 201821495154 U CN201821495154 U CN 201821495154U CN 209235782 U CN209235782 U CN 209235782U
- Authority
- CN
- China
- Prior art keywords
- cold
- pot
- hot
- pedestal
- integrated device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Cookers (AREA)
Abstract
The utility model discloses a kind of cold-hot integrated devices, the cold-hot integrated device (100) includes pedestal (3) and the heating portion (1) that can be worked independently from each other and refrigeration section (2), the heating portion (1) includes the hot pot inserting groove (12) of hot pot (11) and setting on the pedestal (3), the refrigeration section (2) includes the cold pot inserting groove (24) of cold pot (21) and setting on the pedestal (3), the hot pot (11) is placed in the hot pot inserting groove (12) and the cold pot (21) is plugged in the cold pot inserting groove (24).The cold-hot integrated device of the utility model can adapt to the drinking habit and use habit in different user by the way that heating portion and refrigeration section is arranged at the both ends of pedestal.In addition, being conducive to improve production assembling speed in the hot pot inserting groove and cold pot inserting groove of compartmentalization arrangement and optimizing the radiator structure in pedestal.
Description
Technical field
The utility model relates to fields of home appliance technology, and in particular, to a kind of cold-hot integrated device.
Background technique
With the continuous improvement of people's quality of life, how to drink clean drinking water becomes one in living
Important topic.Even to this day, due to worrying quality problem, people still generally like drinking the hot water after boiling, therefore, electric kettle
A kind of indispensable household electrical appliance in life are become substantially.
However, existing electric kettle usually only has the quick temperature-reducing function to hot water, without have separate refrigeration or
Ice making function, this makes people be difficult to easily drink the drink of one glass of frost during the broiling summer.In other words, existing electric heating
The user experience of kettle is also urgently further promoted.
Utility model content
In view of the above drawbacks of the prior art or insufficient, the utility model provides a kind of cold-hot integrated device, has energy
The heating portion enough worked independently from each other and refrigeration section, may be adapted to the drinking habit and use habit of different user, thus have compared with
Good user experience.
To achieve the above object, the utility model provides a kind of cold-hot integrated device, and the cold-hot integrated device includes
Pedestal and the heating portion that can be worked independently from each other and refrigeration section, the heating portion include hot pot and are arranged on the base
Hot pot inserting groove, the refrigeration section includes cold pot and setting cold pot inserting groove on the base, and the hot pot is placed in
In the hot pot inserting groove and the cold pot is plugged in the cold pot inserting groove.
Preferably, the pedestal lobe portion to raise upward, the cold pot inserting groove setting are formed on the roof of the pedestal
In the pedestal lobe portion.
Preferably, the pedestal lobe portion is square and is equipped with heat dissipation air inlet and heat radiation air outlet.
Preferably, the inserting groove lateral wall of the hot pot inserting groove is set as avoiding the heat dissipation air inlet and the heat dissipation
Air outlet.
Preferably, the heat dissipation air inlet and the heat radiation air outlet are separately positioned on the sides adjacent in the pedestal lobe portion
On wall;And/or the heat dissipation air inlet is in dome-shaped and radially spaced ground arranged concentric has multiple dome-shaped grizzly bars and described
It is louvered that heat radiation air outlet is set as rectangle.
Preferably, the cold-hot integrated device includes the centrifugal radiation air being arranged in the base intracavity of the pedestal
Fan, the heat dissipation air inlet are connected to the air intake of the centrifugal heat radiation fan, and the heat radiation air outlet connection is described centrifugal
The outlet air end of radiator fan.
Preferably, the pedestal is equipped with for condensed water outlet and/or for the pedestal through hole of heat dissipation.
Preferably, the pedestal includes fastening lid, the hot pot inserting under fastening lid and pedestal on the pedestal mutually fastened
Slot and the cold pot inserting groove are respectively provided in fastening lid on the base.
Preferably, the cold pot is fixed in the cold pot inserting groove by gluing, buckle or fastener inserting.
Preferably, sealing element is equipped between the peripheral part of the cold pot and the internal perisporium of the cold pot inserting groove.
Through the above technical solutions, the cold-hot integrated device of the utility model respectively pedestal both ends setting heating portion and
Refrigeration section, and heating portion can be worked independently from each other with refrigeration section, can adapt to the drinking habit of different crowd and using habit
Used, user experience is good.In addition, hot pot inserting groove and cold pot inserting groove are respectively equipped in heating portion and refrigeration section, it being capable of compartmentalization
Ground marks off the riding position of hot pot and cold pot, and the other component in heating portion and refrigeration section can be made to be evenly arranged, favorably
Assembling speed and the radiator structure in optimization pedestal are produced in improving.
Other features and advantages of the utility model will the following detailed description will be given in the detailed implementation section.
Detailed description of the invention
Attached drawing is to be used to provide a further understanding of the present invention, and constitute part of specification, and following
Specific embodiment be used to explain the utility model together, but do not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is the solid that the cold-hot integrated device of thermoelectric refrigerating system is used in specific embodiment of the present utility model
Figure;
Fig. 2 is the positive view of the cold-hot integrated device in Fig. 1;
Fig. 3 is the sectional view of the cold-hot integrated device in Fig. 1;
Fig. 4 is another cold-hot integrated device that thermoelectric refrigerating system is used in specific embodiment of the present utility model
Perspective view;
Fig. 5 is the side view of the cold-hot integrated device in Fig. 4;
Fig. 6 is the sectional view of the cold-hot integrated device in Fig. 5;
Fig. 7 is the positive view of the cold-hot integrated device in Fig. 4;
Fig. 8 is the Structure explosion diagram of the cold-hot integrated device in Fig. 4;
Fig. 9 is the perspective view of the independent conduction cooling element in the cold-hot integrated device in Fig. 8;
Figure 10 is that the perspective view of the conduction cooling sleeve of the cold-hot integrated device in Fig. 4 (is formed with cooling piece peace on conduction cooling sleeve
Fill plane);
Figure 11 is another sectional view (sleeve male part is formed on conduction cooling sleeve) of the cold-hot integrated device in Fig. 4;
Figure 12 is another sectional view of the cold-hot integrated device in Fig. 4 (refrigeration section is equipped with external temperature-sensing probe);
Figure 13 is that (top of external temperature-sensing probe directly contacts cold for another sectional view of cold-hot integrated device in Fig. 4
The liner bottom wall of pot liner);
Figure 14 be Fig. 4 in cold-hot integrated device another sectional view (refrigeration section be equipped with embedded with temperature-sensing pop one's head in and just
Take the cold pot of formula).
Description of symbols:
100 cold-hot integrated devices
1 heating portion, 2 refrigeration section
Radiator fan in 3 pedestals 4
The hot pot of 10 electric-controlled plate 11
The 12 hot pot heating elements of hot pot inserting groove 13
14 connector, 15 connector fixed plate
21 cold 22 conduction cooling sleeves of pot
The cold pot inserting groove of 23 insulating 24
215 semiconductor chilling plate, 216 cooling fin
The independent conduction cooling element of 217 cooling piece mounting plane 218
219 Portable type cold pot, 220 embedded with temperature-sensing probe
Fastening lid on 221 external 31 pedestals of temperature-sensing probe
33 pedestal lobe portion of fastening lid under 32 pedestals
34 heat dissipation 35 heat radiation air outlets of air inlet
The cold cold pot lid of pot shell 21b of 21a
The cold pot liner 21d liner bottom wall groove of 21c
21f pot lid hollow sandwich in protrusion under 21e pot lid
22d sleeve male part 22e collet base wall groove
The outer conduction cooling wall surface of conduction cooling wall surface 218b in 218a
It is taken above 218c conduction cooling wall male part 219a and holds portion
Cartridge part below 219b
Specific embodiment
Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein
Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.
It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can
To be combined with each other.
In the present invention, in the absence of explanation to the contrary, the noun of locality used such as " upper and lower, top, bottom " is usually
Be for direction shown in the drawings either for it is vertical, vertically or on gravity direction for each component mutual alignment
Relationship description word.
The utility model will be described in detail below with reference to the accompanying drawings and embodiments.
The utility model provides a kind of cold-hot integrated device 100, as shown in figs. 1 to 14, the cold-hot integrated device 100
Including pedestal 3, one end that pedestal 3 is set heating portion 1 and be arranged in pedestal 3 the other end refrigeration section 2.Wherein, it makes
Hot portion 1 includes the hot pot 11 for heating, and hot pot 11 can be the heating container such as electric kettle or health-promotion kettle, and refrigeration section 2 includes
For the cold pot 21 to liquid refrigerating, refrigerating function herein is not limited to chilled water function, may also include ice making function or to heat
The function that water cools down.
It should be noted that cold-hot integrated device 100 may include food processing apparatus, which can have one
Kind or a variety of Food processing functions, such as agitating function or juicing function etc..For cold-hot integrated device 100, setting
Under the premise of having refrigeration section 2, on pedestal 3 it is settable can independently of refrigeration section 2 work heating portion 1 or food processing apparatus,
Or heating portion 1 and food processing apparatus are set simultaneously.Certainly, food processing apparatus may be alternatively provided as included heating function.
As it can be seen that the heating portion 1 and refrigeration section 2 in the cold-hot integrated device 100 of the utility model are being capable of mutually indepedent work
Make, including hot pot 11 and cold pot 21 work at the same time or work independently.Therefore, which can adapt to difference
The drinking habit of crowd, improves the ease of use of user, to greatly enhance the user experience.
Specifically, refrigeration section 2 may include the cold pot inserting groove 24 being arranged on the roof of pedestal 3, and cold pot 21 is inserted into cold
In pot inserting groove 24, heating portion 1 may include the hot pot inserting groove 12 being arranged on the roof of pedestal 3, and hot pot 11 is placed in hot pot
In inserting groove 12.
It is mutually indepedent between heating portion 1 and refrigeration section 2 to guarantee, cold pot inserting groove 24 and hot pot inserting groove 12 preferably by
Setting.Further, since the type of hot pot 11 and cold pot 21 is unlimited, in some embodiments, hot pot 11 and cold pot 21 can be distinguished
It is fixed to be inserted into hot pot inserting groove 12 and cold pot inserting groove 24 or hot pot 11 and cold pot 21 are disposed as taking for user
Structure, or the fixed inserting that one of is arranged to hot pot 11 and cold pot 21 and structure that another one can take.Therefore,
The cold-hot integrated device 100 of the utility model is other than the drinking habit that can adapt to different crowd, additionally it is possible to adapt to different
User's use habit.
In some embodiments, to guarantee that cold pot 21 can stablize inserting, conduction cooling can be installed in cold pot inserting groove 24
The internal diameter of sleeve 22, the conduction cooling sleeve 22 is more bigger than the outer diameter of the cold pot liner 21c of cold pot 21.Therefore, when cold pot liner 21c extremely
When small part is inserted into the sleeve cavity of conduction cooling sleeve 22, the case where cold pot liner 21c is not in shaking, has stable peace
Assembling structure.
Further, since conduction cooling sleeve 22 has conduction cooling characteristic, the conduction cooling knot between cold pot 21 and refrigeration system can be used as
Structure.But in order to keep cold conduction efficiency higher, can be filled out between the sleeve lining of conduction cooling sleeve 22 and the inner bladder outer wall of cold pot liner 21c
Fill conduction cooling medium.
In some embodiments, insulating 23 can be set in cold pot inserting groove 24, so as to cold pot 21
Heat insulation and preservation effect is more preferable.For example, insulating 23 may be provided at the sleeve outer wall of conduction cooling sleeve 22 and the inner wall of inserting groove
Between, insulating 23 is formed as vacuum heat-insulating layer or filled with heat-insulation and heat-preservation medium.
In some embodiments, agitating device is equipped in the hot pot inner cavity of hot pot 11 and/or the cold pot inner cavity of cold pot 21.
When being equipped with agitating device in hot pot 11, being equivalent in heating portion 1 has the function of food cooking machine.And it is equipped with when in cold pot 21
When agitating device, which cooperates the ice making function of cold pot 21, can produce the Sorbet of taste good.
In some embodiments, heating portion 1 may include the hot pot temperature-adjusting device for regulating and controlling the temperature of hot pot 11,
Refrigeration section 2 may include the cold pot temperature-adjusting device for regulating and controlling the temperature of cold pot 21.By the way that temperature-adjusting device, user is arranged
It can be required according to the drinking-water of itself to produce the boiled water with specific temperature.Further, heating portion 1 may include overheating protection
Device, refrigeration section 2 may include supercooling protective device, can guarantee the safe handling of cold-hot integrated device 100.
In some embodiments, the inserting groove inner wall of hot pot inserting groove 12 is more equipped with being circumferentially successively intervally arranged
A inserting groove function key mapping, the difference that each inserting groove function key mapping corresponds to hot pot 11 use function, set on the outer wall of hot pot 11
Functional selection key mapping.When user rotates hot pot 11 relative to hot pot inserting groove 12, function selecting key position can be aligned arbitrarily
Inserting groove function key mapping, electrical connection is realized when function selecting key position is aligned with inserting groove function key mapping, to keep hot pot 11 real
The now corresponding function of inserting groove function key mapping.
Preferably, the pedestal lobe portion 33 to raise upward is formed on the roof of pedestal 3, cold pot inserting groove 24 is located at pedestal
In lug boss 33, so that the axial dimension of cold pot inserting groove 24 is bigger, the bigger cold pot 21 of volume can be placed, is increased disposable
Chilled water or ice-making capacity.
Preferably, pedestal lobe portion 33 is square and is equipped with heat dissipation air inlet 34 and heat radiation air outlet 35.To improve heat dissipation
Heat dissipation air inlet 34 and heat radiation air outlet 35 can be separately positioned on the adjacent wall in pedestal lobe portion 33 by efficiency, so that dissipating
Vertical air plenums are formed between hot air inlet 34 and heat radiation air outlet 35, to increase wind pressure, accelerate radiating rate.
Further, since hot pot inserting groove 12 is arranged with cold pot inserting groove 24 interval, preferably by the slotting of hot pot inserting groove 12
Tankage lateral wall evacuation heat dissipation air inlet 34 and heat radiation air outlet 35 are arranged, in order to avoid in heat dissipation air inlet 34 or heat radiation air outlet 35
It is formed about larger windage and influences to radiate.
Further, heat dissipation air inlet 34 is preferably arranged in dome-shaped, and is equipped with radially spacedly in air inlet
Multiple dome-shaped grizzly bars of arranged concentric, heat radiation air outlet 35 are preferably arranged to be in that rectangle is louvered, i.e., are equipped in air outlet
The multiple vertical bar shaped grizzly bars being vertically intervally arranged.When heat dissipation air inlet 34 is in rectangle blinds in dome-shaped and heat radiation air outlet 35
When window-like, the windage in heat dissipation wind channel is smaller, can accelerate radiating rate, improves radiating efficiency.
In order to match with the above-mentioned inlet and outlet structure for being capable of forming vertical air plenums, the heat dissipation in base intracavity is set
Fan is centrifugal heat radiation fan.Wherein, heat dissipation air inlet 34 is connected to the air intake of centrifugal heat radiation fan, heat radiation air outlet 35
It is connected to the outlet air end of centrifugal heat radiation fan.In other words, when centrifugal heat radiation fan rotates, air is through 34 axis of air inlet that radiates
Heat radiation air outlet 35 is flowed to from the outlet air end of radiator fan to the air intake for flowing to radiator fan, and radially, thus shape
At the biggish heat dissipation wind channel of wind pressure.
In addition, pedestal through hole is arranged preferably on the bottom wall or side wall of pedestal 3, gathered in such base intracavity cold
Condensate can perhaps the pedestal through hole can be used for auxiliary heat dissipation or the pedestal passes through by the pedestal through hole outlet
Through-hole can be used for simultaneously for condensed water outlet and auxiliary heat dissipation.
Preferably, pedestal 3 includes fastening lid 32, hot pot inserting groove 12 under fastening lid 31 and pedestal on the pedestal that mutually fastens
It is arranged on pedestal in fastening lid 31 with cold pot inserting groove 24.Setting fastening lid structure for pedestal 3 is advantageous in that, is convenient for
The assembly of each component in base intracavity, such as the component or the structures such as radiator fan of refrigeration system, are conducive to increase production effect
Rate reduces production cost, and can tear machine maintenance open convenient for subsequent.
It is fixed in cold pot inserting groove 24, improves in addition, cold pot 21 can be inserted by modes such as gluing, buckle or fasteners
Assembly stability between cold pot 21 and cold pot inserting groove 24.Further, the peripheral part of cold pot 21 and cold pot inserting groove 24
It is equipped with sealing element between internal perisporium, is used for insulating water-proof, guarantees the highly effective refrigeration of cold pot 21.
Freeze it should be noted that refrigeration section 2 can be realized by compressor refrigeration system, which includes
Wind the evaporator that conduction cooling sleeve 22 is arranged.Wherein, conduction cooling sleeve 22 is formed as interlayer sleeve, and evaporator is located at the folder at this time
In the sleeve interlayer cavity of layer sleeve, and conduction cooling medium is filled in sleeve interlayer cavity, to enhance conduction cooling effect.
Freeze alternatively, refrigeration section 2 can be realized by thermoelectric refrigerating system, which includes semiconductor chilling plate
215 and the power supply circuit for powering to semiconductor chilling plate 215, electric-controlled plate 10 can be equipped in base intracavity, power supply circuit can
It is integrated in electric-controlled plate 10.Wherein, semiconductor chilling plate 215 includes heating end face and for the outer wall system to cold pot liner 21c
Cold refrigeration end face.
In one embodiment, refrigeration end face paste closes the liner exterior bottom wall for being installed on cold pot liner 21c, at this time heating end
It is connected with cooling fin 216 below face, ensures that the refrigeration end face of semiconductor chilling plate 215 can continue to freeze with this, otherwise, system
Hot end face and refrigeration end face can reach thermal balance, so as to cause the conduction cooling decreased effectiveness of refrigeration end face.
Further, cold-hot integrated device 100 further includes the interior radiator fan 4 being arranged in the base intracavity of pedestal 3, energy
It is enough by outside the heat Accelerating Removal pedestal 3 of cooling fin 216, and then guarantee the highly effective refrigeration of refrigeration end face.
Heat release hole, and the heat release hole can be opened up on the bottom wall of pedestal 3 to improve radiating efficiency based on above structure
It is preferably provided in the lower section of interior radiator fan 4.It is highly preferred that the axial projective area of heat release hole is not less than the axis of interior radiator fan
To projected area, to increase heat dissipation air output, radiating efficiency is improved.
Specifically, cold pot 21 includes the cold pot shell 21a being set in outside cold pot liner 21c, and cold pot liner 21c's is outer
It is equipped with the bottle body insulating layer as insulating 23 between peripheral wall and the internal perisporium of cold pot shell 21a, guarantees to cold pot 21
Continue heat-insulation and heat-preservation.Wherein, which may be configured as vacuum heat-insulating layer or filled with freezing by change of state medium.
In addition, cold pot 21 further includes the cold pot lid 21b for Gai Heleng pot liner 21c.Conduct is equipped in the cold pot lid 21b
The pot lid insulating layer of insulating 23, and the outer housing of cold pot lid 21b is preferably arranged to sealing shell body, with this water proof every
Heat.
Preferably, refrigeration section 2 includes the conduction cooling knot being arranged between cold pot 21 and the refrigeration end face of semiconductor chilling plate 215
Structure.Wherein, cooling piece mounting plane 217 is equipped in conduction structure, the refrigeration end face of semiconductor chilling plate 215 is jointly mounted to this
On cooling piece mounting plane 217, to increase the conduction cooling area of refrigeration end face, be conducive to improve refrigerating efficiency.
In one embodiment, referring to Fig. 6 to Fig. 9, conduction structure includes being mounted on the periphery wall of conduction cooling sleeve 22
Independent conduction cooling element 218.At this point, cooling piece mounting plane 217 is arranged on the independent conduction cooling element 218.As it can be seen that due to only
Vertical conduction cooling element 218 is the conduction cooling component that can be produced independently of conduction cooling sleeve 22, therefore production efficiency is higher, and is easy to fill
Match and replace, can reduce production cost and maintenance cost.
Specifically, independent conduction cooling element 218 is in hoop-like and including circumferential interior conduction cooling wall surface 218a and outer conduction cooling wall surface
218b, and conduction cooling sleeve 22 is circular sleeve.At this point, the sleeve periphery wall surface phase of interior conduction cooling wall surface 218a and conduction cooling sleeve 22
Mutually fitting is conducive to increase conduction cooling area.It, can be in addition, be formed with cooling piece mounting plane 217 on outer conduction cooling wall surface 218b
The refrigeration end face of semiconductor chilling plate 215 is flat and fit.
Further, the conduction cooling wall male part 218c of evagination, conduction cooling wall male part are formed on outer conduction cooling wall surface 218b
The radial outer end face of 218c is formed as cooling piece mounting plane 217.Alternatively, indent can also be formed on outer conduction cooling wall surface 218b
Conduction cooling wall groove, the groove bottom wall of the conduction cooling wall groove can be used as cooling piece mounting plane 217, and the groove of conduction cooling wall groove
Upper side wall and groove lower wall can be connected to the upper and lower ends of semiconductor chilling plate 215 respectively, guarantee that it is firmly installed.
In addition, can also pass through the circumferential contact surface of the sleeve periphery wall surface of conduction cooling wall surface 218a and conduction cooling sleeve 22 in increasing
It accumulates with axially contact area and improves cold conduction efficiency.Preferably, the circumferential perimeter of interior conduction cooling wall surface 218a is at least sleeve periphery
The half of the circumferential perimeter of wall surface, the axial length of interior conduction cooling wall surface 218a are at least the 1/ of the axial length of sleeve periphery wall surface
3。
It, can be with when the circumferential perimeter of interior conduction cooling wall surface 218a is more than or equal to the half of the circumferential perimeter of sleeve periphery wall surface
Crimp formation interference between interior conduction cooling wall surface 218a and sleeve periphery wall surface, thus fixed independent conduction cooling element 218 and conduction cooling
The assembly of sleeve 22.Alternatively, independent conduction cooling element 218 can be set to elastic conduction cooling element with elastic banding conduction cooling sleeve 22.
When the circumferential perimeter of interior conduction cooling wall surface 218a is less than the half of the circumferential perimeter of sleeve periphery wall surface, independent conduction cooling
Element 218 can be fixedly mounted on conduction cooling sleeve 22 by gluing or fastener etc..
In another embodiment, 0 and Figure 11, conduction structure include being formed directly into conduction cooling sleeve 22 referring to Fig.1
Cooling piece mounting plane 217 on sleeve periphery wall, the refrigeration end face of semiconductor chilling plate 215 can equally pacify with the cooling piece
Dress plane 217 is flat and fit.
Optionally, vertical smooth wall surface is formed on sleeve periphery wall, it is flat which can be used as cooling piece installation
Face 217.Alternatively, the cooling piece installation groove that diameter concaves is formed on sleeve periphery wall, the groove-bottom of cooling piece installation groove
Wall surface is formed as cooling piece mounting plane 217.At this point, in at least partially embedded cooling piece installation groove of semiconductor chilling plate 215,
And the upper and lower ends of semiconductor chilling plate 215 abut the groove upper side wall and groove lower wall of cooling piece installation groove respectively,
To guarantee that stablizing for semiconductor chilling plate 215 is installed.Or the sleeve male part of evagination is formed on sleeve periphery wall
The radial outer end face of 22d, sleeve male part 22d are formed as cooling piece mounting plane 217, this structure is convenient in semiconductor chilling plate
Cooling fin 216 is set on 215 heating end face.
Preferably, plane face of the area of plane of the cooling piece mounting plane 217 in conduction structure not less than refrigeration end face
Product, the structure are conducive to further increase the conduction cooling contact area of refrigeration end face and cooling piece mounting plane 217.
In addition, refrigeration section 2 includes the cold pot temperature-sensing probe for sensing the temperature of cold pot 21.The cold pot temperature-sensing probe can be with
It is the external temperature-sensing probe that can sense cold pot temperature indirectly, the embedded with temperature-sensing for being also possible to directly to sense cold pot temperature is visited
Head.
By the way that cold pot temperature-sensing probe is arranged, the cold-hot integrated device 100 of the utility model can be according to the cold pot sensed
Temperature realizes the functions such as temperature regulation, supercooling protection or user reminding, is conducive to the function of abundant cold-hot integrated device 100, from
And make user that there is better usage experience.
In one embodiment, 2 and Figure 13, cold pot temperature-sensing probe are the sleeve that conduction cooling sleeve 22 is arranged in referring to Fig.1
External temperature-sensing probe 221 in exterior bottom wall and/or sleeve periphery wall, to realize the indirect temperature-sensitive to cold pot 21.Due to external
Temperature-sensing probe 221 will not directly contact always with the liquid in cold pot 21, therefore for the relatively direct temperature-sensitive of sensing mode more
Add clean hygiene, it can be ensured that the safe for drinking of user.
Preferably, the sleeve exterior bottom wall of conduction cooling sleeve 22 is formed with collet base wall groove 22e, the liner of cold pot liner 21c
Bottom wall is formed with liner bottom wall groove 21d.Wherein, the groove walls of collet base wall groove 22e are embedded in liner bottom wall groove 21d upwards
In, at least partially embedded collet base wall groove 22e of external temperature-sensing probe 221.By the way that external temperature-sensing probe 221 is embedded in sleeve bottom
In wall groove 22e, the conduction cooling area between probe and conduction cooling sleeve 22 is bigger, is more advantageous to the sensing accuracy for improving probe.
It is highly preferred that being filled with conduction cooling between the sleeve inner bottom wall and liner bottom wall of the conduction cooling sleeve 22 in present embodiment
Medium, and the top of external temperature-sensing probe 221 is connected to the groove roof of collet base wall groove 22e.As it can be seen that external temperature-sensitive is visited
First 221 top directly contacts the sensing accuracy that can further increase probe with the groove roof of collet base wall groove 22e,
To keep the working performance of cold-hot integrated device 100 more reliable.
Further, the periphery wall and collet base wall groove of the external temperature-sensing probe 221 in collet base wall groove 22e are embedded in
The recess sidewall of 22e mutually abuts, and keeps the periphery wall of external temperature-sensing probe 221 and the recess sidewall of collet base wall groove 22e complete
Full connected, conduction cooling area reach maximization, sense accuracy also corresponding highest.
Preferably, the sleeve exterior bottom wall of conduction cooling sleeve 22 can be equipped with probe through hole, at this point, external temperature-sensing probe 221
Top passes through probe through hole and abuts the liner bottom wall of cold pot liner 21c.Compared with above-mentioned temperature sensor structure, this preferred structure
In external temperature-sensing probe 221 top and cold pot inner cavity between only between be separated with the liner bottom wall of cold pot liner 21c, due to saving
The temperature-sensitive accuracy of one layer of conduction structure, the external temperature-sensing probe 221 in this preferred structure is relatively higher.
In another embodiment, referring to Fig.1 4, cold pot temperature-sensing probe is to be arranged in the cold pot liner 21c of cold pot 21
Embedded with temperature-sensing probe 220.As it can be seen that since embedded with temperature-sensing probe 220 can directly contact the liquid in cold pot liner 21c, because
For this relatively indirect temperature-sensitive of sensing mode, temperature-sensitive precision is higher.
Preferably, cold pot 21 includes the cold pot lid 21b for Gai Heleng pot liner 21c, and embedded with temperature-sensing probe 220 is mountable
In the bottom of cold pot lid 21b.It is highly preferred that the bottom wall of cold pot lid 21b is formed with protrusion 21e under downwardly convex pot lid, it is built-in
The protrusion 21e under pot lid of temperature-sensing probe 220 is extended downwardly.At this point, by protrusion 21 under setting pot lid, embedded with temperature-sensing probe 220
Contact area between liquid is bigger, and temperature-sensitive precision further increases.
In addition, can be formed in cold pot lid 21b for heat-insulation and heat-preservation and can be used for installing electric-controlled plate 10 pot lid it is hollow
Interlayer 21f, and pot lid hollow sandwich 21f is preferably arranged to vacuum interlayer or filled with heat-insulation and heat-preservation medium.Correspondingly, cold
The outer housing of pot lid 21b is preferably arranged to sealing shell body, forms water proof heat insulation structural.
It further include the control plane of setting on the base 3 in the above-mentioned cold-hot integrated device 100 equipped with cold pot temperature-sensing probe
Plate, the control panel include display panel, which has to remind and use for showing the cold pot temperature that probes sense arrives
The function of the real-time sensing temperature in family.In addition, control panel includes temperature setting key, electric-controlled plate 10 can be configured to control semiconductor
The refrigeration of cooling piece 215 is until cold pot 21 reaches the set temperature value of temperature setting key, and cold pot temperature-sensing probe preferably uses energy
Enough electronic temperature-sensing probes that sensing temperature signal is issued to electric-controlled plate 10.
In some embodiments, referring to Fig.1 4, refrigeration section 2 includes the Portable type cold that can be arranged with taking on the base 3
Pot 219.The Portable type cold pot 219 especially can greatly expire during the broiling summer convenient for carrying when user's trip
Sufficient user's drinks requirement, and practicability is higher.
Preferably, Portable type cold pot 219 is taken including top and holds portion 219a and lower section cartridge part 219b, lower section cartridge part 219b
It is plugged in the sleeve cavity of conduction cooling sleeve 22.As it can be seen that taking the top held to take convenient for user by being divided into Portable type cold pot 219
The portion 219a and lower section cartridge part 219b for refrigeration is held, user can be facilitated to carry or freeze at any time.
After the completion of the refrigeration of Portable type cold pot 219, the periphery wall temperature of lower section cartridge part 219b is lower, is unfavorable for user and takes
It holds.But hold between portion 219a and lower section cartridge part 219b being capable of mutual conduction cooling since top is taken, it is therefore desirable to take hold portion above
The periphery wall of 219a is provided as the bottle body insulating layer of insulating 23, to avoid user above contact take hold portion 219a when
Feel is uncomfortable.
To improve refrigerating efficiency, lower section cartridge part 219b may be configured as cylindrical, and conduction cooling sleeve 22 may be configured as circle
Sleeve.Wherein, conduction cooling contact structures are formed between the outer wall of lower section cartridge part 219b and the inner wall of conduction cooling sleeve 22.For example, should
Conduction cooling contact structures can be the conduction cooling elastic element being covered on the inner wall of conduction cooling sleeve 22, at this time lower section cartridge part 219b
The inner wall elastic compression joint of outer wall and conduction cooling elastic element.Alternatively, the conduction cooling contact structures, which can be, is respectively formed at lower section inserting
The mutually matched screw thread that is screwed between the periphery wall of portion 219b and the internal perisporium of conduction cooling sleeve 22, at this time lower section cartridge part 219b
It is engaged with conduction cooling sleeve 22 by rotation, and passes through respective peripheral wall conduction cooling.Or the conduction cooling contact structures can be setting
Movable magnetic stripe on the inner wall of conduction cooling sleeve 22, it is living when lower section cartridge part, 219b is plugged in the sleeve cavity of conduction cooling sleeve 22
The inner wall of dynamic magnetic stripe compresses the outer wall of lower section cartridge part 219b.
As it can be seen that contacting knot by the way that conduction cooling is arranged between the outer wall and the inner wall of conduction cooling sleeve 22 in lower section cartridge part 219b
Structure is conducive to improve refrigerating efficiency, and can limit simultaneously to lower section cartridge part 219b, makes Portable type cold pot 219 and leads
Assembly between cold sleeve 22 is more stable.
When, there are when larger gap, will lead to conduction cooling between the outer wall of lower section cartridge part 219b and the inner wall of conduction cooling sleeve 22
Effect is deteriorated, and then influences refrigerating efficiency.Therefore, to guarantee highly effective refrigeration, it can be equipped with microswitch in conduction cooling sleeve 22, be somebody's turn to do
Microswitch is set as being triggered when lower section cartridge part 219b is inserted in place with conduction cooling sleeve 22.Alternatively, can be in conduction cooling sleeve
Equipped with for sensing the infrared sensing device of lower section cartridge part 219b and the inserting of conduction cooling sleeve 22 in place in 22, inserted when detecting
When not in place, do not allow to freeze.It should be noted that whether inserting refers to the outer wall and conduction cooling of lower section cartridge part 219b in place
Whether existing gap is sufficiently small between the inner wall of sleeve 22, only when gap is sufficiently small or the outer wall of lower section cartridge part 219b
When forming above-mentioned conduction cooling contact structures between the inner wall of conduction cooling sleeve 22, highly effective refrigeration just can guarantee.
Further, since Portable type cold pot 219 needs continually to plug use, the outer wall of lower section cartridge part 219b is to be easier to grind
Damage position.Hereby, the wear-resistant coating with conduction cooling characteristic can be set in the outer wall of lower section cartridge part 219b, to improve Portable type cold
The abrasivity of pot 219 guarantees its aesthetics.
Preferably, Portable type cold pot 219 includes cold pot lid 21b, and the pot as insulating 23 is equipped in cold pot lid 21b
Lid insulating layer.When user needs tyre Portable type cold pot 219, the heat preservation which can play the long period is made
With.
In addition, the heating portion 1 of the cold-hot integrated device 100 for the utility model comprising for what is heated to hot pot
Hot pot heating element 13, the connector 14 being arranged in hot pot inserting groove 12 and the connector for connector 14 to be fixedly mounted
Fixed plate 15, to guarantee that heating portion 1 can be realized heat-production functions.
Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail in conjunction with attached drawing above
Detail in above embodiment can be to the skill of the utility model in the range of the technology design of the utility model
Art scheme carries out a variety of simple variants, these simple variants belong to the protection scope of the utility model.
It is further to note that specific technical features described in the above specific embodiments, in not lance
It in the case where shield, can be combined in any appropriate way, in order to avoid unnecessary repetition, the utility model is to each
No further explanation will be given for the possible combination of kind.
In addition, any combination can also be carried out between a variety of different embodiments of the utility model, as long as it is not disobeyed
The thought for carrying on the back the utility model, equally should be considered as content disclosed in the utility model.
Claims (10)
1. a kind of cold-hot integrated device, which is characterized in that the cold-hot integrated device (100) includes pedestal (3) and being capable of phase
The heating portion (1) mutually to work independently and refrigeration section (2), the heating portion (1) include hot pot (11) and are arranged in the pedestal (3)
On hot pot inserting groove (12), the refrigeration section (2) includes cold pot (21) and is arranged cold pot inserting groove on the pedestal (3)
(24), the hot pot (11) is placed in the hot pot inserting groove (12), and the cold pot (21) is plugged in the cold pot inserting groove
(24) in.
2. cold-hot integrated device according to claim 1, which is characterized in that formed on the roof of the pedestal (3) oriented
The pedestal lobe portion (33) of upper protrusion, the cold pot inserting groove (24) are arranged in the pedestal lobe portion (33).
3. cold-hot integrated device according to claim 2, which is characterized in that the pedestal lobe portion (33) is square and sets
There are heat dissipation air inlet (34) and heat radiation air outlet (35).
4. cold-hot integrated device according to claim 3, which is characterized in that outside the inserting groove of the hot pot inserting groove (12)
Side wall is set as avoiding the heat dissipation air inlet (34) and the heat radiation air outlet (35).
5. cold-hot integrated device according to claim 3, which is characterized in that the heat dissipation air inlet (34) and the heat dissipation
Air outlet (35) is separately positioned on the adjacent wall of the pedestal lobe portion (33);And/or the heat dissipation air inlet (34) is in
Dome-shaped and radially spaced ground arranged concentric have multiple dome-shaped grizzly bars and the heat radiation air outlet (35) is set as rectangle hundred
Leaf window-like.
6. cold-hot integrated device according to claim 5, which is characterized in that the cold-hot integrated device (100) includes setting
The centrifugal heat radiation fan in the base intracavity of the pedestal (3) is set, heat dissipation air inlet (34) connection is described centrifugal
The air intake of radiator fan, the heat radiation air outlet (35) are connected to the outlet air end of the centrifugal heat radiation fan.
7. cold-hot integrated device according to claim 1, which is characterized in that the pedestal (3) is equipped with outside for condensed water
Row and/or for heat dissipation pedestal through hole.
8. cold-hot integrated device described according to claim 1~any one of 7, which is characterized in that the pedestal (3) includes
Fastening lid (32) under fastening lid (31) and pedestal on the pedestal mutually fastened, the hot pot inserting groove (12) and the cold pot inserting
Slot (24) is respectively provided in fastening lid (31) on the base.
9. cold-hot integrated device according to claim 1, which is characterized in that the cold pot (21) by gluing, buckle or
Fastener inserting is fixed in the cold pot inserting groove (24).
10. cold-hot integrated device according to claim 1, which is characterized in that the peripheral part of the cold pot (21) with it is described
Sealing element is equipped between the internal perisporium of cold pot inserting groove (24).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821495154.2U CN209235782U (en) | 2018-09-12 | 2018-09-12 | Cold-hot integrated device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821495154.2U CN209235782U (en) | 2018-09-12 | 2018-09-12 | Cold-hot integrated device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209235782U true CN209235782U (en) | 2019-08-13 |
Family
ID=67517855
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821495154.2U Active CN209235782U (en) | 2018-09-12 | 2018-09-12 | Cold-hot integrated device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209235782U (en) |
-
2018
- 2018-09-12 CN CN201821495154.2U patent/CN209235782U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US20180028012A1 (en) | Slow cooker appliance and method of operation | |
CN103690029B (en) | Cooking device with refrigeration function | |
CN209246506U (en) | Small household appliances refrigerating plant and cold-hot integrated device | |
CN209235780U (en) | Small household appliances refrigerating plant and cold-hot integrated device | |
CN209235781U (en) | Cold-hot integrated device | |
CN201052041Y (en) | Novel direct freezing type cold-hot cup | |
CN209235782U (en) | Cold-hot integrated device | |
CN208832837U (en) | Cold-hot integrated device | |
CN102151065A (en) | Slow stewpot with refrigerating function | |
CN209235783U (en) | Cold-hot integrated device | |
CN208832839U (en) | Small household appliances refrigerating plant and cold-hot integrated device | |
US20150153088A1 (en) | Cooling Utensil for Anti Freezing Crack or Distortion | |
CN202190877U (en) | Intelligent heating/cooling lunchbox | |
CN202981685U (en) | Temperature regulation kettle | |
CN208832844U (en) | Cold-hot integrated device | |
CN110893069B (en) | Cold and hot integrated device | |
CN110895090A (en) | Small household appliance refrigerating device and cold and hot integrated device | |
CN206222737U (en) | Refrigeration structure of water dispenser and water dispenser | |
WO2020052634A1 (en) | Small household appliance refrigerating apparatus, and integrated heating and refrigerating apparatus | |
CN209235779U (en) | Cold-hot integrated device | |
CN209758025U (en) | beverage heat-preserving barrel | |
CN208769385U (en) | A kind of intelligent cup lid of fast cooling | |
CN102450904A (en) | Electric heating and refrigerating thermos cup with three layers of bottle liners | |
CN208017391U (en) | A kind of Portable food preparation device | |
CN204931127U (en) | A kind of fresh-keeping fruit tray |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |