CN204394279U - Temperature bottle device - Google Patents

Abstract

The utility model relates to a kind of temperature bottle device (1), and this warm bottle device (1) has rotatable control handle (11) and has the thermostat (3) rotating input (4).Described temperature bottle device comprises the controlling organization with flexible coupling (12).Described flexible coupling described control handle is rotatably connected to described rotation input, make the rotation of described control handle (X-X) can with described rotate the rotation (Y-Y) inputted non-parallel arrange.

Description

Temperature bottle device

Technical field

The utility model relates to a kind of temperature bottle device, and described temperature bottle device comprises the thermostat having and rotate input, and for controlling organization that the rotation of thermostat inputs.

Background technology

The feeding bottle that temperature bottle device is normally used for baby is drunk is heated.Known warm bottle device comprises by thermostat controlled heating element heater.Thermostat comprises the control handle of the rotation input being coupled to thermostat by stiff shaft, makes the temperature of warm bottle device be adjusted to the temperature of expectation by rotary control knob.Importantly, the temperature of warm bottle device can be accurately controlled, and milk is heated to and remains on the temperature for baby's safe for drinking.

Utility model content

Have been found that the manufacturing tolerance of parts, the factor of thermal expansion or misalignment and so on of all temperature bottle devices as known in the art, when so warm bottle device is assembled, may cause rotating the rotation of input and the non-coaxial alignment of rotation of control handle.This may cause radial load to be applied on stiff shaft, thus causes power to be applied in the rotation input of thermostat, and this can change the temperature setting of thermostat.Therefore, milk may can not be heated to user-selected temperature, and may be heated on the contrary and drink unsafe temperature to baby.In addition, the non-coaxial rotating the rotation of input and the rotation of control handle is positioned such that to there is gap between control handle and the shell of warm bottle device to causing control handle.Dirt and chip may be collected in this gap unhygienicly.

An object of the present utility model is to provide a kind of warm bottle device with controlling organization substantially alleviating or overcome problem above-mentioned.

According to the utility model, provide a kind of temperature bottle device, described temperature bottle device comprises rotatable control handle, there is the thermostat rotating input, and comprise the controlling organization of flexible coupling, described flexible coupling described control handle is rotatably connected to described rotation input, make the rotation of described control handle can with described rotate the rotation inputted non-parallel arrange.Therefore, control handle easily and reliably can be coupled to and rotate input, even if the manufacturing tolerance of the parts of such as controlling organization, the factor of thermal expansion or misalignment and so on cause the axis disalignment of the axis and control handle rotating input to be aimed at.

In one embodiment, flexible coupling comprises the first installed part being coupled to control handle, is connected to the second installed part rotating input, and connects the connector of the first and second installed parts pivotally.Connector allows control handle relative to the pivoting action of the first and second installed parts and rotates input non-coaxial to aim at.In addition, control handle, connector and the first and second installed parts can be coupled together with formation control mechanism before controlling organization is coupled to rotation input, thus improved the convenience manufactured.In one embodiment, connector is connected to the first installed part pivotally around the first pivotal line with perpendicular to the second pivotal line of the first pivotal line, and is connected to the second installed part pivotally around the 3rd pivotal line with perpendicular to the 4th pivotal line of the 3rd pivotal line.First installed part can form with control handle, and the assembling of controlling organization is simplified.

In one embodiment, the first installed part comprises the first recess, and the second installed part comprises the second recess, and connector comprises and is configured to be received in the far-end in the first and second recesses respectively.Therefore, the far-end of connector can not rotate input and the motion in the radial direction of control handle by the first and second installed parts the part of the periphery of each recess is restrained.

In one embodiment, one in the first end of the first installed part and connector comprises at least one slit, and another in the first end of the first installed part and connector comprises and be configured to be received in a pair projection in described slit or each slit slidably.In one embodiment, one in the second end of the second installed part and connector comprises at least one slit, and another in the second end of the second installed part and connector comprises and be constructed to be received in a pair projection in described slit or each slit slidably.The slidably joint of projection in described slit or each slit allows control handle to slide in its axial direction relative to rotation input, and the distance between them can be adjusted.

In one embodiment, flexible coupling comprises double universal coupling.Find, double universal coupling allows the rotation of control handle and rotates radial deflection relatively large between the rotation of input, produces relatively cheap, and can be manufactured by injection mo(u)lding, therefore produces in enormous quantities relatively easy.In addition, double universal coupling can provide high torsional rigidity, make the given rotation of control handle by cause rotate input similar size and predictable rotation.

Controlling organization allows control handle to aim at the rotation disalignment of the rotation making rotation input and control handle and uneven such mode is coupled to the rotation input of thermostat, and does not have possibility to cause the temperature of thermostat to set reformed radial load to be applied in rotate and to input.Therefore, the offset error of the relation between the position of rotation of control handle and the temperature setting of warm bottle device is avoided.

In one embodiment, flexible coupling comprises heat-insulating material, to input hot isolated controlling knob from the rotation of thermostat.Therefore, when warm bottle device is heated, the heat that the heat-insulating material of flexible coupling can limit generation is passed to control handle.Therefore, their risk of being burned of when user's touch control knob user is reduced.

In one embodiment, warm bottle device comprises shell, and control handle is configured to flush arrangement with shell.Shell can comprise circular wall portion, and control handle can comprise the surface being constructed to flush arrangement with circular wall portion.Therefore, control handle is prevented to move in radial directions relative to shell.This prevent and formed otherwise the possible gap collecting dirt and chip between control handle and the shell of warm bottle device unhygienicly.In addition, if control handle prevents user to apply radial load to control handle unintentionally relative to the restriction of shell in radial directions, the rotation input of thermostat can be damaged.

With reference to the embodiments described below, these and other aspect of the present utility model will become apparent and be elaborated.

Accompanying drawing explanation

Embodiment of the present utility model, now by the mode by means of only citing, is described with reference to accompanying drawing, wherein:

Fig. 1 is the perspective view of known warm bottle device;

Fig. 2 is the cross section and perspective of the warm bottle device of Fig. 1;

Fig. 3 is the cross sectional plan view of the warm bottle device of Fig. 1;

Fig. 4 is the perspective view comprising the warm bottle device of controlling organization according to an embodiment of the present utility model;

Fig. 5 is the cross section and perspective of the warm bottle device of Fig. 4;

Fig. 6 is the cross section and perspective of the alternative of the warm bottle device of Fig. 4;

Fig. 7 is the decomposition diagram of the controlling organization of the warm bottle device of Fig. 4;

Fig. 8 is the assembling perspective view of the controlling organization of the warm bottle device of Fig. 4;

Fig. 9 is the cross sectional side view of the warm bottle device of Fig. 4; And

Figure 10 is the sectional top view of the warm bottle device shown in Fig. 4.

Detailed description of the invention

With reference now to Fig. 1 to Fig. 3, known warm bottle device 1 is illustrated.Temperature bottle device comprises shell 2 and thermostat 3.It is inner that thermostat 3 is installed in shell 2, and comprise rotatable to regulate the rotation input 4 of the temperature of warm bottle device 1.

The shell 2 of temperature bottle device 1 comprises the first housing department 5 and second housing portion 6.First semicircle wall portion 5A extends from the outer surface of the first housing department 5, and the second semicircle wall portion 6A extends from the outer surface in second housing portion 6.First housing department 5 and second housing portion 6 are bonded together to form shell 2, make the first semicircle wall portion 5A contact to form circular wall portion 2A with the second semicircle wall portion 6A.

First housing department 5 comprises the inwall 7 with half-round recessed 7A.Second housing portion 6 comprises the inwall (not shown) with half-round recessed (not shown), described half-round recessed (not shown) is aimed at the half-round recessed 7A of the inwall 7 of the first housing department 5, with when the first housing department 5 and second housing portion 6 are bonded together, form circular port (not shown).

Thermostat 3 comprises controlling organization 1A, and described controlling organization 1A has and can form with tubular element 8A and control handle coaxillay aligned with it 8.Tubular element 8A is coupled to the rotation input 4 of thermostat 3 by stiff shaft 9.Tubular element 8A comprises undergauge section 8B, and this undergauge section has from its radial flange part 8C extended.In order to control handle 8 is installed to warm bottle device 1, the undergauge section 8B of tubular element 8A is received in the half-round recessed 7A of the inwall 7 of the first housing department 5.Then first housing department 5 and second housing portion 6 are joined together to form shell 2, in circular port undergauge section 8B being arranged on formed between the inwall 7 of the first housing department 5 and the inwall 7 in second housing portion 6, and the flange part 8C of tubular element 8A is configured to be resisted against on the inner surface of inwall 7.Therefore, if control handle 8 is axially promoted by away from shell 2, then flange part 8C is pushed against on inwall 7, thus prevents control handle 8 to be separated with shell 2.

Before the first housing department 5 and second housing portion 6 are joined together, it is inner that thermostat 3 is installed to the first housing department 5 on bracket (not shown).Thermostat 3 comprises the base portion 3A with holding plate 3B and the control panel 3C from its extension.Screw actuator 4A is rotatably mounted holding plate 3B, and is pushed against on control panel 3C to apply bending force thereon.The amount being applied to the bending force on control panel 3C controls the temperature of warm bottle device 1.Screw actuator 4A is coupled to and rotates input 4, make when rotating input 4 by rotation, screw actuator 4A also rotates, thus move axially towards or away from control panel 3C according to the direction of rotation rotating input 4, thus change the temperature that therefore bending force acted on control panel 3C also changes warm bottle device 1.Therefore, the temperature of warm bottle device 1 can be adjusted by the rotation of control handle 8, and described control handle 8 is rotatably connected to by stiff shaft 9 and rotates input 4, and wherein control handle 8 all represents the different temperatures of warm bottle device 1 relative to each Angle Position of shell 2.Control handle 8 is relative to the relation between the position of rotation of shell 2 and the temperature of warm bottle device 1, by aiming at of the recess (not shown) on control handle 8 and the visual detector 2B arranged around circular wall portion 2A on shell 2, be indicated to user with being illustrated.

When warm bottle device 1 is assembled, it is desirable that the rotation rotating input 4 is aimed at the central axis coaxial of the circular port in shell 2.But the manufacturing tolerance of the such as different parts of warm bottle device 1, thermal expansion or install the factor of misalignment and so on of bracket (not shown) of thermostat 3 in shell 2, may cause the axis disalignment of the axis and circular port rotating input 4 to be aimed at.

If rotate the rotation of input 4 and the central axis disalignment of circular port, then, when control handle 8 is installed to rotation input 4 by stiff shaft 9, undergauge section 8B can be pushed against in the part at the edge of the circular port in shell 2.This may cause shell 2 applying power on undergauge section 8B, and therefore stiff shaft 9 causes being applied in the bending force on holding plate 3B in the radial direction thereof, and this bending force promotes holding plate 3A, and therefore lead-screw actuator 4A against control panel 3C.This is undesirable, is changed, in the relation that offset error is introduced between the Angle Position of control handle 8 and the temperature of warm bottle device 1 because the bending meeting of the control panel 3C produced causes the temperature of thermostat 3 to set.Therefore, if user's rotary control knob 8 aims to make the visual detector 2B on the recess (not shown) of control handle 8 and shell 2 temperature levels selecting warm bottle device 1, then the temperature of produced warm bottle device 1 is by different from the temperature indicated by visual detector 2B.This may be dangerous, because the milk be contained in bottle may be heated to by warm bottle device 1 drink unsafe temperature for baby.In addition, stiff shaft 9 is pushed against the edge of the circular port in shell 2, and may cause the friction increased between control handle 8 and shell 2, this may cause the excessive power of needs to carry out rotary control knob 8.

In order to avoid radial load is applied on stiff shaft 9, and therefore when the central axis disalignment rotating the circular port in the rotation of input 4 and shell 2 is aimed at temperature drift error be introduced into, a solution is the diameter increasing circular port.In such structure, even if there is large displacement between the rotation rotating input 4 and the central axis of circular port, the undergauge section 8B of tubular element 8A also can not be pushed against on the edge of the circular port in shell 2.Therefore, shell 2 can not apply radial load on stiff shaft 9, and therefore the holding plate 3B of thermostat 3 can not be bent, and therefore temperature drift error can not be introduced into.But, the moving freely in the radial direction that such structure will cause control handle 8 at stiff shaft 9, and therefore when being rotated by the user, control handle 8 may rock.In addition, may form clearance G between control handle 8 and shell 2, this unsightly and may collect dirt and chip unhygienicly.In addition, the clearance G between control handle 8 and shell 2 may cause the recess of control handle 8 correctly not aimed at the visual detector 2B be arranged on shell 2, and this may cause the incorrect temperature of warm bottle device 1 to be instructed to user.

With reference now to Fig. 4 to Fig. 9, the warm bottle device 10 according to an embodiment of the present utility model is illustrated.Temperature bottle device 10 comprises shell 2 and thermostat 3, and shell 2 and thermostat 3 have the feature be similar to relative to described by above-mentioned known temperature bottle device 1, and wherein identical feature retains identical Reference numeral.Thermostat 3 is installed in the inside of shell 2, and comprises rotatable to regulate the temperature of warm bottle device 10 to rotate input 4.

Thermostat 3 comprises the controlling organization 10A with control handle 11, and control handle 11 is coupled to the rotation input 4 of thermostat 3 by flexible coupling 12.Flexible coupling 12 comprises double universal coupling, and double universal coupling comprises the first installed part 13, second installed part 14 and connector 15.First installed part 13 and control handle 11 form, and with the axis X-X coaxial alignment of control handle 11.Second installed part 14 is installed to by adhesive and rotates input 4, and with rotate the rotation Y-Y coaxial alignment of input 4.First installed part 13 comprises tubular wall 13A, and it has the recess 13B be formed in wherein.Similarly, the second installed part 14 comprises tubular wall 14A, and it has the recess 14B be formed in wherein.In the diametrically part of the tubular wall 13A of the first installed part 13, be formed with first couple of slit 13C in the end of the far-end at control handle 11 of tubular wall 13A.In the diametrically part of the tubular wall 14A of the second installed part 14, be formed with second couple of slit 14C in the end of the far-end in rotation input 4 of tubular wall 14A.

Connector 15 comprises the slender member 15A with first couple of projection 15B and second couple projection 15C.First couple of projection 15B extends from the relative both sides of slender member 15A, and is arranged on its first end.The second pair of relative both sides of projection 15C at the second end place of the far-end at first end of slender member 15A from slender member 15A extends.

Identical with above-mentioned known temperature bottle device 1, the shell 2 of the warm bottle device 10 of the embodiment of the current description of the utility model comprises the first housing department 5 and second housing portion 6.In addition, shell 2 comprises the first semicircle wall portion 5A and the second semicircle wall portion 6A, and when the first housing department 5 and second housing portion 6 are engaged to form shell 2, the first semicircle wall portion 5A contacts to form circular wall portion 2A with the second semicircle wall portion 6A.First housing department 5 comprises the inwall 7 with half-round recessed 7A.Second housing portion 6 comprises the inwall (not shown) with half-round recessed (not shown), when the first housing department 5 and second housing portion 6 are bonded together, described recess (not shown) aims to form circular port (not shown) with the half-round recessed 7A of the inwall 7 of the first housing department 5.

Control handle 11 comprises inner lip 11A, and it is formed at control handle 11 when being installed to warm bottle device 10, is receivedly resisted against on the inner surface of circular wall portion 2A.Interface between inner lip 11A and circular wall portion 2A allows control handle 11 to rotate relative to the axis X-X of shell 2 around control handle 11, simultaneously inhibitory control knob 11 moving relative to shell 2 in the radial direction at control handle 11.

First installed part 13 of flexible coupling 12 comprises undergauge section 16, and undergauge section has from its radial flange part 16A extended.When control handle 11 is installed to warm bottle device 10, the undergauge section 16 of the first installed part 13 is received in the circular hole that is formed in shell 2, and control handle 11 is supported by shell 2 in the radial direction thereof.The crooked outer surface of undergauge section 16 is settled against flushing (flush against), to prevent control handle 11 relative to the radial motion of shell 2 with the curved surface of inwall 7 in the periphery of circular hole.In addition, when control handle 11 is installed to shell 2, the flange part 16A of the first installed part 13 is configured to the inner surface against each inwall 7.Therefore, if control handle 11 by away from enclosure axis to promotion, then flange part 16A is pushed against on inwall 7, and therefore prevents control handle 11 to be separated with shell 2.

Control handle 11 prevents relative to the constraint of shell 2 in the radial and axial directions and form gap between control handle 11 and shell 2.Preventing of gap between control handle 11 and shell 2 expects, because it is prevented that it may is antihygienic collection dirt and chip between which.In addition, if control handle 11 support axially and in the radial direction prevents user unintentionally to when control handle 11 applying radial or axial force, the rotation input 4 of thermostat 3 is damaged.

When warm bottle device 10 is assembled, thermostat 3 is installed to the inside of the first housing department 5 on bracket (not shown).Then the first end of slender member 15A is arranged in the recess 13B of the first installed part 13, and described first installed part 13 is coupled to thermostat 3, and first couple of projection 15B is received in first couple of slit 13C slidably.Then control handle 11 is installed to shell 2 in the above described manner, makes the inner surface of the inner lip 11A of control handle 11 and circular wall portion 2A against flushing arrangement.When control handle 11 is installed to shell 2, the second end of slender member 15A is arranged in the recess 14B of the second installed part 14, described second installed part 14 is coupled to control handle 11, and second couple of projection 15C is received in second couple of slit 14C slidably.

Because first couple of projection 15B is received in first couple of slit 13C, the rotation of the first installed part 13 will cause its tubular wall 13A applying power on first couple of projection 15B, and connector 15 is rotated.This, by causing second couple of projection 15C applying power on the tubular wall 14A of the second installed part 14, makes the second installed part 14 rotate.Therefore, control handle 11 is rotatably connected to the rotation input 4 of thermostat 3 by flexible coupling 12, and therefore the temperature of warm bottle device 10 can be regulated by the rotation of control handle 11, and wherein each Angle Position of control handle 11 all represents the different temperatures of warm bottle device 10.Control handle 11, relative to the relation between the position of rotation of shell 2 and the temperature of warm bottle device 10, by aiming at of the recess 11B on control handle 11 and the visual detector 2B arranged around circular wall portion 2A on shell 2, is illustratively instructed to user.

First couple of projection 15B of connector 15 can rotate in first couple of slit 13C around its central axis, makes connector 15 can relative to the first installed part 13 around the first pivotal line Z1-Z1 pivotable.In addition, first couple of projection 15B is slidably in first couple of slit 13C, makes connector 15 can relative to the first installed part 13 around the second pivotal line Z2-Z2 pivotable perpendicular to the first pivotal line Z1-Z1.Similarly, second couple of projection 15C of connector 15 can rotate in second couple of slit 14C around its central axis, makes connector 15 can relative to the second installed part 14 around the 3rd pivotal line Z3-Z3 pivotable.In addition, second couple of projection 15C is slidably in second couple of slit 14C, makes connector 15 can relative to the second installed part 14 around the 4th pivotal line Z4-Z4 pivotable perpendicular to the 3rd pivotal line Z3-Z3.

First pivotal line Z1-Z1 and the second pivotal line Z2-Z2 allows connector 15 to be rotatably connected to the first installed part 13, and be therefore connected to control handle 11, and do not require the parallel or coaxial alignment of the rotation of connector 15 and the axis X-X of control handle 11.Similarly, 3rd pivotal line Z3-Z3 and the 4th pivotal line Z4-Z4 allows connector 15 to be rotatably coupled to the second connector 14, and be therefore connected to and rotate input 4, and do not require the parallel or coaxial alignment of rotation Y-Y of the rotation of connector 15 and rotation input 4.Therefore, control handle 11 and the flexible coupling 12 rotated between input 4 allow control handle 11 to be coupled in rotation input 4, and the axis X-X of control handle 11 need not with the rotation Y-Y coaxial alignment rotating input 4.

During the warm bottle device 10 of assembling, when thermostat 3 is installed to the first housing department 5, rotate the rotation Y-Y of input 4 can be positioned such that its not with the central axis coaxial of the circular port in shell 2.This misalignment may be due to the manufacturing tolerance of the such as different parts of warm bottle device 10, thermal expansion, or the misalignment of the bracket (not shown) be held in place in shell 2 by thermostat 3.But, different from the stiff shaft 9 of above-mentioned known temperature bottle device 1, the flexible coupling 12 of the warm bottle device 10 of the embodiment of current description of the present utility model allows control handle 11 to be installed to rotation input 4, makes the rotation Y-Y of the axis X-X of control handle 11 and rotation input 4 offset by radial deflection R each other.This means that control handle 11 can be installed to shell 2 in such a way, namely undergauge section 16 flushes arrangement in the periphery of circular port with the curved surface of inwall 7, to prevent the radial motion of control handle 11, and shell 2 does not apply radial load in undergauge section 16.Therefore, holding plate 3B does not bend towards the control panel 3C of thermostat 3, and thermostat 3 is not installed to shell 2 with the mode of the central axis coaxial of circular port with the rotation Y-Y rotating input 4, the offset error of the relation between the temperature that can not cause the position of rotation of control handle 11 and warm bottle device 10.In addition, control handle 11 can be installed to shell 2, inner lip 11A is flushed with the inner surface of circular wall portion 2A settle and do not form gap between control handle 11 and shell 2, thus prevent the collection dirt between shell 2 and control handle 11 and chip.

Will be appreciated that, " flexible coupling " refers to that any control handle 11 rotatably can being connected to rotates input 4, and does not require the axis X-X of control handle 11 and the parallel and/or coaxillay aligned shaft coupling of rotation Y-Y rotating input 4.Although in the above-described embodiments, flexible coupling 12 comprises double universal coupling, in alternative embodiment (not shown), flexible coupling 12 can comprise the shaft coupling of other type of the non-parallel rotatable connection allowing control handle 11 and rotate input 4.The example of this flexible coupling comprises Hooks coupling universal coupling, Schmidt's shaft coupling, universal joint, Oldham coupling, ball cage type joint or Tang Pusen shaft coupling.These shaft couplings have been found to have high torsional rigidity, and the error of the relation between the temperature of the position of rotation of control handle 11 and warm bottle device 10 therefore can be made to reduce to minimum.

In one embodiment, flexible coupling 12 comprises heat-insulating material, such as polystyrene, glass fibre or cellulose, and the heat trnasfer from the shell 2 of warm bottle device 10 to control handle 11 is lowered.

Although in the above-described embodiments, first couple of projection 15B and second couple projection 15C is arranged on slender member 15A, and first couple of slit 13C and second couple of slit 14C is arranged on the first installed part 13 and the second installed part 14 respectively, in alternative embodiment (not shown), first and second pairs of projections can be arranged on the first and second installed parts respectively, and first and second pairs of slits can be arranged on slender member.

In the above-described embodiments, flexible coupling 12 comprises double universal coupling, double universal coupling has first couple of projection 15B and the second couple projection 15C be received in respectively in first couple of slit 13C and second couple slit 14C, to enable slender member 15A be pivotally attached to the first installed part 13 around the first pivotal line Z1-Z1 and the second pivotal line Z2-Z2, and be pivotally attached to the second installed part 14 around the 3rd pivotal line Z3-Z3 and the 4th pivotal line Z4-Z4.The distance that slidably engage permission first installed part 13 and second installed part 14 between of first couple of projection 15B and second couple projection 15C respectively in first couple of slit 13C and second couple slit 14C can be adjusted on the axial direction rotating input 4.Therefore, the amount of the radial deflection R no matter between the axis X-X of control handle 11 and the rotation Y-Y rotating input 4, control handle 11 can be moved towards shell 2, makes to there is not gap between them.In addition, the structure of above-mentioned flexible coupling 12 is cheap, can use injection mo(u)lding to manufacture, so it is than being easier to manufacture in enormous quantities, and allows relatively large radial deflection R.In addition, above-mentioned flexible coupling 12 has high torsional rigidity, thus the given rotation of control handle 11 by cause rotate input 4 similar size and predictable rotation, therefore flexible coupling 12 reduces the error of the relation between the position of rotation of control handle 11 and the temperature of warm bottle device 10.

Connector 15, and can use the alternative arrangements of above-mentioned double universal coupling to realize around the 3rd pivotal line Z3-Z3 and the 4th pivotal line Z4-Z4 relative to the pivoting action of the second installed part 14 around the first pivotal line Z1-Z1 and the second pivotal line Z2-Z2 relative to the first installed part 13.In such embodiment (not shown), the first installed part is connected to the first intermediate member pivotally around the first pivotal line of the rotation perpendicular to control handle.The first end of connector is connected to the first intermediate member pivotally around the second pivotal line of the rotation perpendicular to the first pivotal line and control handle.The second end of connector is connected to the second intermediate member pivotally around the 3rd pivotal line perpendicular to the rotation rotating input.Second installed part is connected to the second intermediate member pivotally around the 4th pivotal line of the rotation perpendicular to the 3rd pivotal line and rotation input.

In other embodiment (not shown), flexible coupling comprises spring or resilient material, and it connects the first and second installed parts, and can warpage to allow control handle and to rotate non-coaxial, the non-parallel aligning of rotation of input.This flexible coupling manufacture is cheap, although they have lower torsional rigidity, and the error between the temperature that therefore may cause the position of rotation of control handle and warm bottle device.

Although in the above-described embodiments, the first installed part 13 and control handle 11 form, and in alternate embodiment (not shown), the first installed part 13 can use adhesive or to be clasped or interference fit is installed to control handle 11.Although in the above-described embodiments, second installed part 14 uses adhesive to be installed to rotation input 4, in alternate embodiment (not shown), the second installed part 14 can utilize be clasped or interference fit be installed to rotate input 4 or with rotation input 4 form.

Should be understood that, term " comprises " does not get rid of other elements or step, and indefinite article " (a) " or " one (an) " do not get rid of multiple.Single processor can realize the function of some that enumerate in claim.By the simple fact enumerated, some measure is not represented that the combination of these measures can not be utilized in mutually different dependent claims.Any Reference numeral in claim should not be interpreted as the scope limiting claim.

Although in this application; claim has set forth the combination of special characteristic definitely; it should be understood that; open scope of the present utility model also comprises any combination newly of clear and definite, implicit or its any disclosed any new feature or feature inductively herein; no matter whether it relates to any claim of the same utility model of Current demands protection, and no matter it whether as alleviate any or all of identical technical problem the utility model protected.Applicant notifies sincerely, and in the application and checking process of any other application of being obtained by the application, the combination for these features and/or feature can conceive the claim made new advances.

Claims (11)

1. a warm bottle device (1), it is characterized in that, comprise rotatable control handle (11), there is the thermostat (3) rotating input (4), with the controlling organization comprising flexible coupling (12), described flexible coupling (12) described control handle is rotatably connected to described rotation input, make the rotation of described control handle (X-X) can with described rotate the rotation (Y-Y) inputted non-parallel arrange.

2. temperature bottle device (1) according to claim 1, it is characterized in that, described flexible coupling (12) comprises the first installed part (13) being connected to described control handle (11), be connected to described the second installed part (14) rotating input (4), and connect the connector (15) of described first installed part and described second installed part pivotally.

3. temperature bottle device (1) according to claim 2, it is characterized in that, described connector (15) is connected to described first installed part (13) pivotally around the first pivotal line (Z1-Z1) with perpendicular to second pivotal line (Z2-Z2) of described first pivotal line, and is connected to described second installed part (14) pivotally around the 3rd pivotal line (Z3-Z3) with perpendicular to the 4th pivot (Z4-Z4) of described 3rd pivotal line.

4. temperature bottle device (1) according to claim 3, it is characterized in that, described first installed part (13) comprises the first recess (13B), and described second installed part (14) comprises the second recess (14B), and wherein said connector (15) comprises and is configured to be received in the far-end in described first recess and described second recess respectively.

5. the warm bottle device (1) according to claim 3 or 4, it is characterized in that, one in the first end of described first installed part (13) and described connector (15) comprises at least one slit (13C), and another in the described first end of described first installed part and described connector comprises a pair projection (15B) being constructed to be received in slidably in described slit or each slit.

6. the warm bottle device (1) according to claim 3 or 4, it is characterized in that, in the second end of described second installed part (14) and described connector (15), one comprises at least one slit (14C), and another in the described the second end of described second installed part and described connector comprises a pair projection (15C) being constructed to be received in slidably in described slit or each slit.

7. the warm bottle device (1) according to any one in claim 2 to 4, is characterized in that, described first installed part (13) and described control handle (11) are integrally formed.

8. the warm bottle device (1) according to any one in Claims 1-4, it is characterized in that, described flexible coupling (12) comprises double universal coupling.

9. the warm bottle device (1) according to any one in Claims 1-4, it is characterized in that, described flexible coupling (12) comprises heat-insulating material.

10. the warm bottle device according to any one in Claims 1-4, is characterized in that, comprises shell (2), and wherein said control handle (11) is constructed to flush arrangement with described shell.

11. temperature bottle devices according to claim 10, it is characterized in that, described shell (12) comprises circular wall portion (2A), and described control handle (11) comprises the surface (11A) being constructed to flush arrangement with described circular wall portion.