CN109953594A - A kind of rotary vacuum cup with cooling and heat insulation function - Google Patents

Abstract

The invention discloses it is a kind of with cooling and heat insulation function rotary vacuum cup, including the heat preservation cup body being made of liner and outer gallbladder, wherein, vacuum interlayer is formed between the liner and outer gallbladder, the lattice for vacuum interlayer to be divided into temperature adjustment chamber and storage chamber up and down is equipped between bottom surface and outer gallbladder inner bottom surface outside the tank, and thermally conductive stream object is equipped in the vacuum interlayer, wherein, the thermally conductive stream object may pass through the notch being provided in advance on lattice and arbitrarily circulate between temperature adjustment chamber and storage chamber, the lattice can support circulate the thermally conductive stream object intracavitary to temperature adjustment, in order to which the thermally conductive stream object in the part is in contact with inner bladder outer wall and carries out heat exchange.

Description

A kind of rotary vacuum cup with cooling and heat insulation function

Technical field

The present invention relates to insulation cup technology fields, more particularly, to a kind of rotary heat preservation with cooling and heat insulation function Cup.

Background technique

The heat preserving method multiplicity of vacuum cup at present, technology maturation, it is common that realized in such a way that intercept heat is propagated, example If double-layer vacuum chamber blocks convection current, cavity wall coating heat radiation reflecting layer blocks radiation, and cup lid cup plug is blocked using not Heat Conduction Material Transmitting, is realized in addition, also having using phase-transition heat-preserving mode, is temporarily will by phase-change material by the fusing of its solid-liquid and solidification Heat storage.

But the technology that existing vacuum cup water temperature shows and cools down at present, there are problems that one or more of defect: 1) the double-layered vacuum heat-insulation technology that vacuum cup does not use effect good, is mostly double-layer heat insulation, and still there is air heat loss through convection in inside, is protected Best effects can be not achieved in warm nature；2) temperature display, cooling heat preservation relevant apparatus influence vacuum cup leakproofness, reduce heat insulating ability Energy；3) temperature display, cooling heat preservation technology apparatus structure are complicated, and manufacture difficulty is big, and production cost is excessively high, it is difficult to application popularization； 4) temperature display, cooling heat preservation technology device feature are excessively overweight, increase vacuum cup weight, affect user experience；5) make With more complex.

Summary of the invention

In view of the deficiencies of the prior art, the purpose of the present invention is to provide a kind of structure is simple, implement ingenious, production cost It is low with difficulty, there is the rotary vacuum cup of cooling and heat insulation function easily to operate.

To achieve the above object, preferred embodiment provided by the invention are as follows: it is a kind of with cooling and heat insulation function it is rotary Vacuum cup, including the heat preservation cup body being made of liner and outer gallbladder, wherein vacuum interlayer is formed between the liner and outer gallbladder, The separation for vacuum interlayer to be divided into temperature adjustment chamber and storage chamber up and down is equipped between bottom surface and outer gallbladder inner bottom surface outside the tank Portion, and in the vacuum interlayer be equipped with thermally conductive stream object, wherein it is described it is thermally conductive stream object may pass through be provided in advance on lattice lack Mouthful arbitrarily circulate between temperature adjustment chamber and storage chamber, the lattice can support circulate the thermally conductive stream object intracavitary to temperature adjustment, so as to In the part, thermally conductive stream object is in contact with inner bladder outer wall and carries out heat exchange.

Further, the lattice is in the shape to lower recess.

Further, the lattice marginal portion has side to be soldered on outer gallbladder inner wall so that the lattice unwelded side Marginal portion and outer gallbladder inner wall between formed for the thermally conductive notch that passes through of stream object.

Further, heat preservation cup body described in rotary dumping makes notch be in lower position, and adjusts the heat preservation cup body inclination angle So that thermally conductive stream object circulates between temperature adjustment chamber and storage chamber, wherein under the heat preservation cup body tilt state and storage chamber When height and position is lower than the height and position of temperature adjustment chamber, the thermally conductive flow path circulates into storage chamber；Topple in the heat preservation cup body Under state and when the height and position of storage chamber is higher than the height and position of temperature adjustment chamber, the thermally conductive flow path circulates into temperature adjustment chamber.

Further, the heat preservation cup body is ajusted in rotation makes notch be in upright position, the vertical height position of the notch Higher than the piling height of thermally conductive stream object of the circulation into temperature adjustment chamber.

Further, thermosensitive flare material is equipped at the welding edge institute overlapping region of the outer gall bladder wall and lattice.

Further, further include be connected with heat preservation bottle body cooperation cup lid and be installed on cup lid and for incuding liner The temperature indicating device of inner cavity temperature.

Further, the temperature indicating device includes pointer, the dial below pointer, by bimetal leaf spiral winding Temperature-sensing element made of system and water temperature sample metal cartridge, and the water temperature sampling metal cartridge extends to institute through the cup lid State the inner cavity of liner；The cavity being in the form of a column is offered in the water temperature sampling metal cartridge；The temperature-sensing element is set to the sky It is intracavitary, wherein one end of the temperature-sensing element is fixed on the bottom wall of the cavity, and the other end is connected with the pointer, is led to The temperature-sensing element is crossed by temperature variation and deformation occurs that the pointer is driven to rotate on the dial.

Compared with the prior art, the beneficial effect of the present invention is that the partial technical problems currently encountered are effectively solved and improve, It is ingenious with 1. cup body structures, original leakproofness is not destroyed；2. practical function is comprehensive, applied widely, realizes and " think that cooling is just dropped Temperature thinks that heat preservation is just kept the temperature, cooling rate speed is adjustable "；3. easy to operate, production is easy；4. being not required to electricity consumption, energy conservation and environmental protection.

Detailed description of the invention

Fig. 1 is the structural schematic diagram under the present embodiment heat preservation upright keeping warm mode of cup body.

Fig. 2 is the structural schematic diagram under the present embodiment heat preservation upright cooling state of cup body.

Fig. 3 is the whole sectional view under the present embodiment heat preservation cup body tilt state.

Fig. 4 is the view in transverse section under the upright state of the present embodiment vacuum cup.

Fig. 5 is the sectional view under the present embodiment vacuum cup tilt state at circulation face A.

Fig. 6 is the relation schematic diagram one of circulation face A and significant surface B under the present embodiment vacuum cup tilt state.

Fig. 7 is the relation schematic diagram two of circulation face A and significant surface B under the present embodiment vacuum cup tilt state.

Wherein, 1- keeps the temperature cup body, the outer gallbladder of 11-, 12- liner, 2- cup lid, 3- temperature adjustment chamber, 4- storage chamber, 5- lattice, 6- Thermally conductive stream object, 7- notch, 8- temperature indicating device, 81- dial, 82- temperature-sensing element, 83- water temperature sample metal cartridge, A- stream Turn face, B- significant surface.

Specific embodiment

The present invention is further explained in the light of specific embodiments:

Referring to shown in attached drawing 1 to attached drawing 7, the present embodiment is a kind of rotary vacuum cup with cooling and heat insulation function, including Cup lid 2 and heat preservation cup body 1, wherein it is connected through a screw thread between cup lid 2 and heat preservation cup body 1, i.e., forms internal screw thread in cup lid 2, And keep the temperature and form external screw thread at the rim of a cup of cup body 1, realize that cup lid 2 is hermetically covered on by internal screw thread and externally threaded cooperation On the rim of a cup for keeping the temperature 1 top of cup body；Further, heat preservation cup body 1 is by 11 sealing welding of substantially cylindrical liner 12 and outer gallbladder It forms, wherein be formed with vacuum interlayer between liner 12 and outer gallbladder 11, i.e., have between liner 12 and outer gallbladder 11 by vacuumizing The gap of processing.

In the present embodiment, thermally conductive stream object 6 has been sealed in vacuum interlayer up for safekeeping in advance, specifically, the thermally conductive stream object 6 of the present embodiment To be made of numerous tiny particles, not influenced by vacuum environment, light weight and be suitble to, thermal conductivity is good and mobility The metals emery dusts such as good substance, such as aloxite, iron sand.

In the present embodiment, it is equipped between 11 inner bottom surface of 12 outer bottom of liner and outer gallbladder for by above and below vacuum interlayer points It is divided into the lattice 5 of temperature adjustment chamber 3 and storage chamber 4, that is, 12 outer wall of liner, 11 inner wall of outer gallbladder and 5 upper surface three of lattice are enclosed At cavity as temperature adjustment chamber 3, the cavity that both outer 11 inner wall of gallbladder and 5 lower surface of lattice are surrounded is as storage chamber 4.

Further, lattice 5 be in the shape to lower recess, specifically, the spacing between 12 outer wall of lattice 5 and liner It is consistent to the spacing between outer 11 inner wall of gallbladder with 12 outer wall of liner.In addition, 5 marginal portion of lattice has side to be soldered to outer gallbladder So as to be formed between remaining the unwelded marginal portion of the lattice 5 and 11 inner wall of outer gallbladder for thermally conductive stream object 6 on 11 inner walls The notch 7 passed through, weld length are equal to outer gallbladder circumference half.In order to make it easy to understand, it is in bent moon that the notch 7 of the present embodiment is approximate Shape.Defining area surface corresponding to the notch 7 between 11 inner wall of lattice 5 and outer gallbladder at this time is circulation face A.

In the present embodiment, thermally conductive stream object 6 may pass through notch 7 and arbitrarily be flowed between temperature adjustment chamber 3 and storage chamber 4 with realizing Turn, specifically, in use, user makes notch 7 be in lower position (the present embodiment institute by heat preservation cup body 1 described in rotary dumping The lower position of finger are as follows: in the case where keeping the temperature 1 tilt state of cup body, circulation face A can be partially or completely under heat preservation 1 axis of cup body Orientation is set, as shown in attached drawing 3 to attached drawing 6), and 1 inclination angle of heat preservation cup body is adjusted so that thermally conductive stream object 6 is in temperature adjustment chamber 3 and storage It deposits and circulates between chamber 4, notch 7 at this time passes through for thermally conductive stream object 6 (that is, depositing thermally conductive stream object 6 at this time and the face A that circulates There is overlapping region, in order to make it easy to understand, the defined herein overlapping region is significant surface B, significant surface B is less than or equal to circulation face A).When under keeping the temperature 1 tilt state of cup body and the height and position of storage chamber 4 be lower than temperature adjustment chamber 3 height and position when (that is, storage Chamber 4 is located at 3 lower position of temperature adjustment chamber), thermally conductive stream object at this time can be circulated by temperature adjustment chamber 3 into storage chamber 4.When in the heat preservation Under 1 tilt state of cup body and the height and position of storage chamber 4 be higher than temperature adjustment chamber 3 height and position when (that is, storage chamber 4 is located at temperature adjustment 3 top position of chamber), thermally conductive flow path at this time can be circulated by storage chamber 4 into temperature adjustment chamber 3.

In the present embodiment, rotation ajust it is described heat preservation cup body 1 make notch 7 be in upright position (the present embodiment meaning Upright position refers to: in the case where keeping the temperature the upright state of cup body 1, circulation face A is in horizontality, as shown in attached drawing 1,2 and 7), notch 7 vertical height position is higher than the piling height of thermally conductive stream object 6 of the circulation into temperature adjustment chamber 3, that is, enters in temperature adjustment chamber 3 at this time Thermally conductive stream object 6 can not from notch 7 circulate into storage chamber 4, and lattice 5 can support circulate it is thermally conductive to temperature adjustment chamber 3 Object 6 is flowed, thermally conductive stream object 6 accumulation is full of the partial region between 12 outer wall of lattice 5 and liner, in order to the thermally conductive stream object in the part 6(refers to the thermally conductive stream object entered in temperature adjustment chamber 3) it is in contact with 12 outer wall of liner, followed by heat exchange principle so as to be placed in Object in liner 12 forms heat conduction via by liner 12 and thermally conductive stream object 6.

For the ease of the understanding of those skilled in the art, the present embodiment spy combines above-mentioned vacuum cup specifically used method to make Further explanation explanation.

In the present embodiment, by circulating all or part of notch 7 that passes through of thermally conductive stream object 6 into temperature adjustment chamber 3, also, Heat exchange is carried out using the article in the heating conduction and liner 12 of thermally conductive stream object 6, that is, penetrates liner 12 using thermally conductive stream object 6 The article heat in liner 12 is absorbed, the heat part absorbed is deposited in thermally conductive stream object 6, and rest part can pass through outer gallbladder 11 It distributes into external environment, to realize the cooling to 12 article of liner, that is, is in cooling state.

In the present embodiment, it is circulated by the way that thermally conductive stream object 6 is completely extended across notch 7 into storage chamber 4, temperature adjustment chamber at this time 3 there may be the thermally conductive stream object 6 of pettiness without thermally conductive stream object 6(in actual operation), therefore the vaccum of vacuum interlayer is utilized, The article in liner 12 is kept the temperature with realizing, that is, is in keeping warm mode.

Further, the present embodiment is by taking the face A that circulates when vacuum cup is upright is in the situation of the right-hand side of people as an example, to vacuum cup Working process and principle are illustrated, and are described as follows:

Further, user can slowly rotate clockwise heat preservation cup body 1 so that notch 7 is in lower position, at this time can according to Family demand, can be around heat preservation 1 axis of cup body rotation to adjust circulation face A, in order to change between circulation face A and thermally conductive stream object 6 Overlapping area (adjusts the size of significant surface B), that is, when significant surface B is big, under same isoclinic angle, thermally conductive stream object 6 passes through notch 7 amount is big；When significant surface B is small, under same isoclinic angle, the amount that thermally conductive stream object 6 passes through notch 7 is small.

When being converted by keeping warm mode to cooling state: when vacuum cup be in upright state, thermally conductive stream object 6 is all placed in In storage chamber 4, then, user can be in lower position, and storage chamber 4 along slowly rotary heat-insulating cup body 1 clockwise with notch 7 Positioned at 3 top position of temperature adjustment chamber, thermally conductive stream object 6 at this time flows along 11 inner wall of outer gallbladder tilted down and passes through notch 7 by storing up Deposit chamber 4 circulation into temperature adjustment chamber 3 (at this time can simultaneously or pre-adjust significant surface B size with adjust it is thermally conductive stream object 6 flow it is big It is small, or the inclination angle size of adjustment heat preservation cup body 1), when the partly or entirely thermally conductive circulation of stream object 6 is into temperature adjustment chamber 3, continue suitable Hour hands, which slowly rotate, rotates vacuum cup to upright state, and the thermally conductive stream object 6 entered in temperature adjustment chamber 3 at this time is held by lattice It holds in the palm and is temporarily deposited in temperature adjustment chamber 3, so that thermally conductive stream object 6 and liner 12 carry out heat exchange, realize cooling state.

Further, since the amount for entering thermally conductive stream object 6 in temperature adjustment chamber 3 is more, the absorbent heat of institute is bigger, therefore, When all thermally conductive stream object 6 enters in temperature adjustment chamber 3, cooling effect at this time is optimum state, for this purpose, user is in use process In, can appropriate adjustment enter in temperature adjustment chamber 3 it is thermally conductive stream object 6 amount, to meet the demand of user itself.

When being converted by cooling state to keeping warm mode: when vacuum cup be in upright state, user can be along rotation counterclockwise Turn vacuum cup so that notch 7 is in lower position, and storage chamber 4 is located at 3 lower position of temperature adjustment chamber, thermally conductive stream object 6 at this time It is circulated by storage chamber 4 into storage chamber 4 along being flowed to 11 inner wall of outer gallbladder tilted down and passing through notch 7, to all thermally conductive streams When the circulation of object 6 is into storage chamber 4, continuing slowly to rotate counterclockwise rotates vacuum cup to upright state, and temperature adjustment chamber 3 at this time does not have There is thermally conductive stream object 6, therefore using the vaccum of vacuum interlayer, the article in liner 12 is kept the temperature with realizing, realizes heat preservation State.

In the operation drunk water or poured, in order to avoid keeping the temperature cup body 1 in an inclined state, thermally conductive stream object is missed Circulation, therefore, vacuum cup is whether in cooling state or keeping warm mode, only need to rotate adjustment heat preservation cup body 1 position with Make under angled state, circulation face A is completely in the top position of heat preservation 1 axis of cup body, and thermally conductive stream object 6 at this time can not pass through Notch 7.

In the present embodiment, thermosensitive flare material is equipped at the welding edge institute overlapping region of outer 11 outer wall of gallbladder and lattice 5 Material；The thermosensitive flare material be a kind of special material that can vary with temperature and occur color change, belong to well-known technique；By In under cooling state, the junction temperature and 12 water temperature of liner of lattice 5 and outer gallbladder 11 are close, and can pass through thermosensitive flare material The color change of material reflects water temperature, simultaneously as thermosensitive flare material itself has color, also for user to vacuum cup into Mark action is provided when the conversion operation of row cooling and heat preservation.It can be indicated by the region that thermosensitive flare material is covered to reflect Position at notch 7 out, that is, be covered with the weld side that thermosensitive flare material side is outer gall bladder wall and lattice, do not cover Having thermosensitive flare material side is the notch side of outer gall bladder wall and lattice, to make user that can intuitively grasp the correspondence of notch 7 Position.

In the present embodiment, temperature indicating device 8 is also embedded on cup lid 2；Temperature indicating device 8 includes pointer, is set to Dial 81 below pointer, the temperature-sensing element 82 as made of bimetal leaf helically coiling and water temperature sample metal cartridge 83； Water temperature sampling metal cartridge 83 extends to the inner cavity of liner 12 through cup lid 2；It offers in water temperature sampling metal cartridge 83 in column The cavity of shape；Temperature-sensing element 82 is set in cavity, wherein one end of temperature-sensing element 82 is fixed on the bottom wall of cavity, the other end Be connected by the needle pivot being preset with pointer, by temperature-sensing element 82 by temperature variation deformation occurs drive pointer carving It is rotated on scale 81, i.e., when temperature intracavitary in liner 12 changes, the deformation of temperature-sensing element 82 can also change, To drive rotational angle of the pointer on dial 81 to change, user can pass through scale pointed by observation pointer Value intuitively recognizes the interior intracavitary temperature of liner 12 at this time (surface of cup lid 2 is made of transparent material).

In addition, can intuitively observe the circulation situation of thermally conductive stream object 6 for the ease of user, can guarantee to keep the temperature cup body performance Under the premise of, using outer gallbladder 11 made by transparent material, the selection of this material to those skilled in the art, is not necessarily to Creative labor is paid, belongs to routine techniques selection, details are not described herein again.

In addition, it should be noted that, the specific embodiments described in this specification, are preference, each section title Etc. can be different, the equivalent or simple change that all structure, feature and principles described according to the invention patent design are done includes In in the scope of protection of the patent of the present invention.Those skilled in the art can be to described specific embodiment Do various modifications or additions or be substituted in a similar manner, without departing from structure of the invention, principle thinking or Person is within the scope of protection of the invention not over range defined in the claims.

Claims (8)

1. a kind of rotary vacuum cup with cooling and heat insulation function, including the heat preservation being made of liner (12) and outer gallbladder (11) Cup body (1), wherein be formed with vacuum interlayer between the liner (12) and outer gallbladder (11), it is characterised in that: liner (12) outside Point for vacuum interlayer to be divided into temperature adjustment chamber (3) and storage chamber (4) up and down is equipped between bottom surface and outer gallbladder (11) inner bottom surface Every portion (5), and thermally conductive stream object (6) is equipped in the vacuum interlayer, wherein the thermally conductive stream object (6) may pass through lattice (5) notch (7) being provided in advance on arbitrarily circulates between temperature adjustment chamber (3) and storage chamber (4), and the lattice (5) can support stream The thermally conductive stream object (6) in temperature adjustment chamber (3) is gone to, is gone forward side by side in order to which the thermally conductive stream object (6) in the part is in contact with liner (12) outer wall Row heat exchange.

2. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 1, it is characterised in that: described Lattice (5) is in the shape to lower recess.

3. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 1, it is characterised in that: described Lattice (5) marginal portion has side to be soldered on outer gallbladder (11) inner wall so that the edge part of the lattice (5) unwelded side Divide the notch (7) for being formed between outer gallbladder (11) inner wall and being passed through for thermally conductive stream object (6).

4. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 3, it is characterised in that: rotation Toppling over the heat preservation cup body (1) makes notch (7) be in lower position, and adjusts the heat preservation cup body (1) inclination angle so that thermally conductive stream Object (6) circulates between temperature adjustment chamber (3) and storage chamber (4), wherein under heat preservation cup body (1) tilt state and storage chamber (4) when height and position is lower than the height and position of temperature adjustment chamber (3), the thermally conductive flow path circulates into storage chamber (4)；In the guarantor Under warm cup body (1) tilt state and when the height and position of storage chamber (4) is higher than the height and position of temperature adjustment chamber (3), the thermally conductive stream Road circulates into temperature adjustment chamber (3).

5. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 4, it is characterised in that: rotation Ajusting the heat preservation cup body (1) makes notch (7) be in upright position, and the vertical height position of the notch (7) is higher than circulation extremely The piling height of thermally conductive stream object (6) in temperature adjustment chamber (3).

6. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 3, it is characterised in that: described Thermosensitive flare material is equipped at the welding edge institute overlapping region of outer gallbladder (11) outer wall and lattice (5).

7. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 1, it is characterised in that: also wrap It includes the cup lid (2) for the cooperation that is connected with heat preservation cup body and is installed on cup lid (2) and is used to perceive and show in liner (12) The temperature indicating device (8) of chamber temperature.

8. a kind of rotary vacuum cup with cooling and heat insulation function according to claim 7, it is characterised in that: described Temperature indicating device (8) includes pointer, dial (81), the temperature-sensitive as made of bimetal leaf helically coiling below pointer Element (82) and water temperature sampling metal cartridge (83), it is exhausted that water temperature sampling metal cartridge (83) is encapsulated in the cup lid (2) Inside hot material, bottom extends to the inner cavity of the liner (12)；It is offered in water temperature sampling metal cartridge (83) and is in Columnar cavity；The temperature-sensing element (82) sets in the cavity, wherein institute is fixed in one end of the temperature-sensing element (82) It states on the bottom wall of cavity, the other end is connected with the pointer, and shape is occurred by temperature variation by the temperature-sensing element (82) Variable speed is moved the pointer and is rotated on the dial (81).