CN106852644A - Insulating pot - Google Patents

Abstract

Include the invention discloses a kind of insulating pot：Bottle body；Power-off sensing action module, the power-off sensing action module is arranged to be disconnected when the temperature of the power-off induction module is increased to default power-off temperature the galvanic circle formed between the insulating pot and power supply；Steam flow performing module, the steam flow performing module is arranged for being controlled the quantity of steam for flowing to the power-off sensing action module time can at least extend needed for the power-off sensing action module is warming up to the default power-off temperature.Insulating pot according to embodiments of the present invention, the steam flow of flow direction power-off sensing action module is controlled by steam flow performing module, delayed electric induction action module of resolving perceives the time point of vapor (steam) temperature or power-off is sensed action module intensification slowly, extend conduction time after insulating pot boiling, so as to extend insulating pot boiling time, healthy and safe drinking water is provided the user.

Description

Insulating pot

Technical field

The present invention relates to family's electro-technical field, more particularly to a kind of insulating pot.

Background technology

With the improvement of people ' s living standards, requirement more and more higher to drinking water, but in correlation technique, insulating pot heats up water temperature when generally reaching 98 DEG C or so, the temperature controller of insulating pot carries out deenergization action, so as to cause the water in insulating pot not seethed with excitement sufficiently, it is impossible to meet demand of the people to healthy drinking water.

The content of the invention

It is contemplated that at least solving one of technical problem in correlation technique to a certain extent.Therefore, the present invention proposes a kind of insulating pot, the insulating pot can extend the time of boiling water in bottle body.

Insulating pot according to embodiments of the present invention includes：Bottle body；Power-off sensing action module, the power-off sensing action module is arranged to be disconnected when the temperature of the power-off induction module is increased to default power-off temperature the galvanic circle formed between the insulating pot and power supply；Steam flow performing module, the steam flow performing module is arranged for being controlled the quantity of steam for flowing to the power-off sensing action module time can at least extend needed for the power-off sensing action module is warming up to the default power-off temperature.

Insulating pot according to embodiments of the present invention, the steam flow of flow direction power-off sensing action module is controlled by steam flow performing module, delayed electric induction action module of resolving perceives the time point of vapor (steam) temperature or power-off is sensed action module intensification slowly, extend conduction time after insulating pot boiling, so as to extend insulating pot boiling time, healthy and safe drinking water is provided the user.

Insulating pot according to embodiments of the present invention, also with following additional technical feature：

According to one embodiment of present invention, the insulating pot has steam channel, and the steam channel is arranged for at least part of steam in the bottle body being delivered to the power-off sensing action module.

According to one embodiment of present invention, the steam flow performing module is at least partially disposed in the steam channel.

According to one embodiment of present invention, the steam flow performing module is arranged for changing the steam circulation area of the steam channel.

According to one embodiment of present invention, the steam flow performing module is arranged to continuously be adjusted the steam circulation area.

According to one embodiment of present invention, the steam flow performing module includes：Temperature sensibility, the temperature sensibility is arranged in the steam channel and the temperature sensibility is arranged to perceive vapor (steam) temperature and deform upon to change the steam circulation area of the steam channel.

According to one embodiment of present invention, the temperature sensibility is configured to thermal sensitive piece, and the thermal sensitive piece is built in the steam channel.

According to one embodiment of present invention, the thermal sensitive piece includes：Body and the variant part that can be deformed, one end of the variant part is fixing end, and the fixing end is connected with the body, and the other end of the variant part is free end.

According to one embodiment of present invention, the relatively described steam channel of the thermal sensitive piece is detachable.

According to one embodiment of present invention, the steam flow performing module includes：Valve, the relatively described steam channel position of the valve is adjustable, so as to change the steam circulation area of the steam channel.

According to one embodiment of present invention, the valve carries out position adjustments with the relatively described steam channel of rotating manner.

According to one embodiment of present invention, the valve at least has maximum open position and fully closed position, at the valve in the maximum open position, the valve is structured to a part for the tube wall to form the steam channel, at the valve in the fully closed position, the valve separates the steam channel.

According to one embodiment of present invention, the valve can be rotated relative to the steam channel between the maximum open position and fully closed position.

According to one embodiment of present invention, the insulating pot also includes：Steam pipe, the jet chimney at restriction in the steam pipe, the steam pipe includes：Upper steam pipe, upper valve, lower valve and the lower steam pipe being sequentially connected.

According to one embodiment of present invention, the insulating pot also includes：Steam pipe, the steam channel at restriction in the steam pipe, the steam pipe is built in the bottle body handle of the bottle body outer surface.

According to one embodiment of present invention, the steam flow performing module is hand steam flow performing module.

According to one embodiment of present invention, upper seal and lower seal are arranged with the steam pipe, the steam flow performing module is arranged between the upper seal and lower seal.

According to one embodiment of present invention, the upper seal is put between the inner surface of the outer surface of the steam pipe and the handle, and the lower seal is arranged between the outer surface of the steam pipe and the inner surface of the handle or the outer surface of the bottle body.

According to one embodiment of present invention, the upper seal and the lower seal are configured to the flap seal cushion rubber of annular.

Brief description of the drawings

Fig. 1 is the structural representation of insulating pot according to an embodiment of the invention；

Fig. 2 is the exploded view of steam pipe according to an embodiment of the invention；

Fig. 3 is the top view of thermal sensitive piece according to an embodiment of the invention, wherein, thermal sensitive piece is in fully closed position；

Fig. 4 is the front view of thermal sensitive piece according to an embodiment of the invention, wherein, thermal sensitive piece is in full open position；

Fig. 5 is the partial sectional view of insulating pot according to an embodiment of the invention, wherein, thermal sensitive piece is in fully closed position；

Fig. 6 is the partial sectional view of insulating pot according to an embodiment of the invention, wherein, thermal sensitive piece is in full open position；

Fig. 7 is the exploded view of steam pipe in accordance with another embodiment of the present invention；

Fig. 8 is the partial sectional view of insulating pot in accordance with another embodiment of the present invention, wherein, valve is in full open position；

Fig. 9 is the partial sectional view of insulating pot in accordance with another embodiment of the present invention, wherein, valve is between full open position and fully closed position；

Figure 10 is the partial sectional view of insulating pot in accordance with another embodiment of the present invention, wherein, valve is in fully closed position；

Figure 11 is the partial enlarged drawing at A in Figure 10；

Figure 12 is the structural representation of insulating pot according to an embodiment of the invention, and steam pipe is provided with upper seal and lower seal；

Figure 13 is the partial exploded view of insulating pot according to an embodiment of the invention.

Reference：

Insulating pot 100；

Bottle body 10；

Power-off sensing action module 200；

Steam flow performing module 300；

Steam channel 20；

Steam pipe 23；Upper steam pipe 231；Upper valve 232；Escape groove 2321；Lower valve 233；Lower steam pipe 234；

Temperature sensibility 30；

Thermal sensitive piece 31；Body 311；Body straightway 311a；Body segmental arc 311b；Variant part 312；Connection side 312a；

Handle 40；

Valve 50；Valve shaft 51；

Manual operation unit 60；Control stick 61；

Buffering air storing cavity 70；

Upper seal 81；Lower seal 82.

Specific embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings.Embodiment below with reference to Description of Drawings is exemplary, it is intended to for explaining the present invention, and be not considered as limiting the invention.

Insulating pot 100 according to embodiments of the present invention is described below with reference to Fig. 1 to Figure 13.As shown in figure 1, the insulating pot 100 can include：Bottle body 10, power-off sensing action module 200 and steam flow performing module 300.

Specifically, power-off sensing action module 200 is arranged to be disconnected when the temperature of power-off sensing action module 200 is increased to default power-off temperature the galvanic circle formed between insulating pot 100 and power supply.Power-off sensing action module 200 can be located in bottle body 10, and for example the bottom surface of bottle body 10 can have pedestal, and heating element heater is provided with pedestal, and power-off sensing action module 200 can be arranged in the pedestal.Steam channel 20 is used to at least part of steam in bottle body 10 to be delivered to power-off sensing action module 200.Wherein, power-off sensing action module 200 can perceive the temperature of steam, and when the temperature of power-off sensing action module 200 reaches setting value, power-off sensing action module 200 can perform the action for disconnecting the power supply of insulating pot 100.That is, when the circuit of heating up water of insulating pot 100 is in the conduction state, insulating pot 100 will be heated to the water in bottle body 10, after boiling water, steam can be transported at power-off sensing action module 200, and the temperature of power-off sensing action module 200 gradually rises, when the temperature of power-off sensing action module 200 is increased to setting value, power-off sensing action module 200 can disconnect the circuit of heating up water of insulating pot 100, complete to heat up water.Wherein, power-off sensing action module 200 can include temperature controller (not shown), and temperature controller plays a part of to perceive vapor (steam) temperature.

Steam flow performing module 300 is arranged for being controlled the steam flow for flowing to the power-off sensing action module 200 time can at least extend needed for power-off sensing action module 200 is warming up to default power-off temperature.In other words, steam flow performing module 300 can be controlled to the steam flow of flow direction power-off sensing action module 200.For example, steam flow performing module 300 can perform the action for reducing the flow direction power-off sensing steam of action module 200, now, the steam flow of flow direction power-off sensing action module 200 will reduce in unit interval, and the time powered off needed for sensing action module 200 is warming up to default power-off temperature will extend.And for example, steam flow performing module 300 can perform the action of the increase flow direction power-off sensing steam of action module 200, now, the steam flow of flow direction power-off sensing action module 200 will increase in unit interval, and the time powered off needed for sensing action module 200 is warming up to default power-off temperature will shorten.For another example, steam flow performing module 300 can perform the action of the isolation flow direction power-off sensing steam of action module 200 completely, now, it is zero that the steam flow of flow direction power-off sensing action module 200 levels off in unit interval, and the temperature for powering off sensing action module 200 will not heat up, the circuit of heating up water of insulating pot 100 remains conducting, and the water in bottle body 10 is by constantly boiling.

Insulating pot 100 according to embodiments of the present invention, it is controlled by the steam flow of 300 pairs of flow direction power-off sensing action modules 200 of steam flow performing module, delayed electric induction action module 200 of resolving perceives the time point of vapor (steam) temperature or power-off sensing action module 200 is heated up slowly, extend the time of the energization of insulating pot 100, so as to extend the boiling time of insulating pot 100, healthy and safe drinking water is provided the user.

In some embodiments of the invention, insulating pot 100 can have steam channel 20, and steam channel 20 is arranged for at least part of steam in bottle body 10 being delivered to power-off sensing action module 200.Power-off sensing action module 200 can be transported to along steam channel 20 after boiling water in insulating pot 10, steam flow performing module 300 can control flow direction power-off to sense the quantity of steam of action module 200 by controlling the conducting state of steam channel 20.

In one particular embodiment of the present invention, steam flow performing module 300 can be at least partially disposed in steam channel 20.In other words, steam flow performing module 300 can be entirely built in steam channel 20, as shown in Figure 5 and Figure 6.Steam flow performing module 300 can also a part in steam channel 20, remainder outside steam channel 20, as shown in Fig. 8 to Figure 10.

In one particular embodiment of the present invention, insulating pot 100 also includes steam pipe 23.Steam channel 20 at restriction in steam pipe 23.Steam pipe 23 can include：Upper steam pipe 231, upper valve 232, lower valve 233 and the lower steam pipe 234 being sequentially connected, as shown in Figure 2 and Figure 7.The upper end of upper valve 232 can be connected with upper steam pipe 231, and the lower end of upper valve 232 can be connected with lower steam pipe 234, and lower valve 233 is set in the periphery wall of valve 232 and the junction of lower steam pipe 234.It is understood that above-mentioned connected mode is only to illustrate, it is not limitation of the present invention.Can one by one not described here using welding, bonding, interference fit or clamping etc. for the connected mode between upper steam pipe 231, upper valve 232, lower valve 233 and lower steam pipe 234.

Steam pipe 23 can be built in the handle 40 of bottle body 10 of the outer surface of bottle body 10.Thus, it is possible to simplify the internal structure of bottle body 10, it is easy to the installation and maintenance of insulating pot 100.But the present invention is not limited thereto, steam pipe 23 can also be built in bottle body 10, do not described in detail here.

In some specific embodiments of the invention, steam flow performing module 300 is arranged for changing the steam circulation area of steam channel 20.It is understood that the quantity of steam that power-off sensing action module 200 is flowed to when steam circulation area is larger, in the unit interval is also larger, the temperature intensification of power-off sensing action module 200 is also very fast.The quantity of steam that power-off sensing action module 200 is flowed to when steam circulation area is smaller, in the unit interval is also smaller, and the temperature intensification of power-off sensing action module 200 is also slower.Therefore, the temperature that can efficiently control power-off sensing action module 200 by the steam circulation area for changing steam channel 20 is warming up to the time of power-off preset temperature, so that delayed electric induction action module 200 of resolving perceives the time point of vapor (steam) temperature or power-off sensing action module 200 is heated up slowly.

Steam flow performing module 300 can be hand steam flow performing module.That is, user can manually control the execution of steam flow performing module 300 whether to act as needed, default power-off temperature-time is increased to when the temperature of extension power-off sensing operational module is needed, then can manually control steam flow performing module 300 to perform and reduce the action of steam circulation area, when the extension time user's request has been reached, then can manually control steam flow performing module 300 to perform and stop reducing the action of steam circulation area.If user does not have the demand, steam flow performing module 300 need not be operated.

In some specific embodiments of the invention, insulating pot 100 can also include：Steam flow control module (not shown).Steam flow control module is connected and with steam flow performing module 300 for controlling steam flow performing module 300 to act.For example, steam flow control module can be set with steam circulation size parameter, steam flow parameter, execution actuation time parameter etc. so as to be control effectively to steam flow performing module 300.

Alternatively, steam flow performing module 300 can be arranged to continuously be adjusted steam circulation area.When steam circulation area is maximum, steam flow is maximum, and when steam circulation area is zero, steam flow is also zero.Steam flow performing module 300 can continuously be adjusted steam circulation area between steam circulation area is maximum and steam circulation area is zero, for example, can be continuously adjusted to steam circulation area minimum from steam circulation area maximum.Or can be continuously adjusted to steam circulation area maximum from steam circulation area minimum.It is appreciated that, when needing to reach the time point of delayed power-off sensing action module 200 perception vapor (steam) temperature or make power-off sensing action module 200 heat up slow, steam circulation area can be adjusted from minimum to maximum variation tendency, temperature such that it is able to both realize extension power-off sensing action module 200 be warming up to default power-off temperature needed for time so that the holding of insulating pot 100 is heated up water circuit.

In some embodiments of the invention, reference picture 5 and Fig. 6 and combination Fig. 3 and Fig. 4, steam flow performing module 300 can include：Temperature sensibility 30, temperature sensibility 30 is arranged in steam channel 20 and temperature sensibility 30 is arranged to perceive vapor (steam) temperature and deform upon to change the steam circulation area of the steam channel 20.

Temperature sensibility 30 is arranged in steam channel 20 and temperature sensibility 30 is arranged to perceive vapor (steam) temperature and deform upon to change the steam circulation area of steam channel 20.In other words, due to being provided with temperature sensibility 30 in steam channel 20, stopped by temperature sensibility 30 after produced steam is entered into steam channel 20 after boiling water in bottle body 10, steam can't directly be transported to power-off sensing action module 200 (can certainly have fraction steam to be delivered to power-off sensing action module 200), reached after predetermined temperature deforms upon in temperature sensibility 30, because the metamorphosis of temperature sensibility 30 causes that steam channel 20 is turned on, a large amount of steam can just be transported to power-off sensing action module 200, the power supply of insulating pot 100 is disconnected so as to stop the boiling of water in bottle body 10 when power-off sensing action module 200 reaches preset temperature.

It should be appreciated that explanation here is schematical, it is impossible to be not understood as a kind of limitation to invention.Temperature sensibility of the invention 30 can separate steam channel 20 in original state, and after deforming, steam channel 20 is in the conduction state.Certainly, temperature sensibility 30 can also partly separate steam channel 20 in original state, and such as size of temperature sensibility 30 is small compared with the section of steam channel 20, and after deforming, the conducting degree of steam channel 20 increases.I.e., no matter how temperature sensibility 30 is set (can for example use two kinds of set-up modes presented here), as long as temperature sensibility 30 can change the steam circulation area of steam channel 20 after sense temperature deforms, the quantity of steam of flow direction power-off sensing action module 200 can just be changed, for example reduce the quantity of steam of flow direction power-off sensing action module 200 or postpone steam and flowed to power-off sensing action module 200, so power-off sensing action module 200 heats up slowly or power-off sensing delayed a period of time of action module 200 heats up, so as to increased the boiling time of water in bottle body 10, water is set fully to seethe with excitement.

In some embodiments of the invention, temperature sensibility 30 can be structured as thermal sensitive piece 31, and thermal sensitive piece 31 is built in steam channel 20.As shown in Figure 5 and Figure 6, thermal sensitive piece 31 is close to the internal face of steam channel 20 and steam channel 20 is isolated into the upper steam channel 20 and the lower steam channel 20 positioned at the bottom of thermal sensitive piece 31 positioned at the top of thermal sensitive piece 31.Thermal sensitive piece 31 can overlap to stop the flowing of steam before deformation with steam circulating face, thermal sensitive piece 31 reaches the downward deformation of preset temperature, upper and lower steam channel 20 is switched on, and power-off sensing action module 200 is able to perceive break-make of the vapor (steam) temperature such that it is able to control the power supply of insulating pot 100.Thus, it is possible to turn on upper steam pipe 231 and lower steam pipe 234 by the deformation of thermal sensitive piece 31 and then determine whether steam is transported to power-off sensing action module 200.Explanation is needed exist for, the deformation direction of thermal sensitive piece 31 can make adjustment as needed with the amplitude of deformation.

In one particular embodiment of the present invention, as shown in Figure 3 and Figure 4, thermal sensitive piece 31 can include：Body 311 and the variant part 312 that can be deformed upon, one end of variant part 312 is fixing end, and fixing end is connected with body 311, and the other end of variant part 312 is free end.The fixing end of variant part 312 is connected with body 311, and the free end of variant part 312 can swing up and down relative to the place plane of body 311.Thus, the steam circulation area of steam channel 20 is changed.For example, in one embodiment of the invention, variant part 312 is arranged in body 311 and a part of outer peripheral edge of variant part 312 is connected with a part of inner peripheral of body 311.Body 311 is pointed generally in approximately the same plane with variant part 312, another part outer peripheral edge of variant part 312 is fitted each other with another part inner peripheral of body 311, and variant part 312 can deviate the place plane of body 311 so as to realize changing the steam circulation area of steam channel 20 with the disjunct part of body 311.Thus, it is possible to control steam in steam channel 20 to circulate and then play the time point that delayed power-off sensing action module 200 perceives vapor (steam) temperature.Certainly, body 311 can be horizontally set with steam channel 20, variant part 312 can be lobate for semicircle butterfly, two semicircle lobate outsides for being symmetrically distributed in body 311 of butterfly, by changing the aperture of the lobate relative steam passage 20 of semicircle butterfly to change steam circulation area.It should be understood that it is above-mentioned be only it is schematic, be not limitation of the present invention.

Alternatively, as shown in Figure 3 and Figure 4, body 311 can be structured as " D " shape and can include body straightway 311a and body segmental arc 311b, the two ends of body segmental arc 311b are connected with the two ends of body straightway 311a so as to constitute the annular body portion 311 of closing respectively, variant part 312 is arranged on the inner side of body 311 and is adapted with the shape of body 311, there is variant part 312 straight connection side 312a, connection side 312a to be connected with body straightway 311a.Thus, it is possible to simplify the manufacturing process of thermal sensitive piece 31, the manufacturing cost of insulating pot 100 is reduced.Wherein, the outer peripheral edge of body 311 can be fixed on the inwall of steam channel 20 by way of welding, bonding or riveting, it is possible to understand that, it is above-mentioned to be only illustrative, it is not limitation of the present invention.

Certainly, thermal sensitive piece 31 can also relative steam passage 20 be detachably connected.So, if performance degradation occurs in thermal sensitive piece 31 when cannot accurately control the break-make of steam channel 20, or steam channel 20 to have foreign matters from being blocked, can in time change thermal sensitive piece 31 or dredging steam channel 20 can normally be worked with ensureing insulating pot 100.

Steam pipe can be built in the handle 40 of the bottle body 10 of the outer surface of bottle body 10.Thus, it is possible to simplify the internal structure of bottle body 10, simplify the assembling procedure of insulating pot 100.It is above-mentioned to be only illustrative, it is not limitation of the present invention.

In still other embodiments of the invention, thermal sensitive piece 31 can be arranged between valve 232 and lower valve 233.For example, thermal sensitive piece 31 can be fixed by a pin on the lower surface of valve 232 and by the lower surface of upper valve 232 with The upper surface chucking power of steam pipe 234 is built in steam channel 20.Again for example, could be formed with ledge structure on the inner peripheral surface of lower valve 233, thermal sensitive piece 31 is arranged on the upper surface of ledge structure, and thermal sensitive piece 31 is close in the lower surface of upper valve 232.Therefore, under the fixation without pin, it is also possible to which thermal sensitive piece 31 is securely arranged between upper valve 232 and lower valve 233, parts usage is reduced.Wherein, shape of the shape of thermal sensitive piece 31 substantially with ledge structure is consistent.

In still other embodiments of the invention, as shown in Fig. 7-Figure 11, steam flow performing module 300 can include valve 50.50 relative steam passage of valve, 20 positions are adjustable, so as to change the steam circulation area of steam channel 20.50 relative steam passage of valve, 20 positions are adjustable changing the steam circulation area of steam channel 20.In other words, the steam circulation area of steam channel 20 changes because of the change of the position of 50 relative steam passage of valve 20.For example, valve 50 can be entirely located in outside steam channel 20, steam circulation area can reach maximum (steam channel 20 now to traditional insulating pot 100 is similar), now, steam will be delivered to power-off sensing action module 200 by normal discharge, and the temperature of power-off sensing action module 200 reaches the power supply that insulating pot 100 is will be switched off after setting value.And for example, a part for valve 50 may be located in steam channel 20, part in steam channel 20 can be used for reducing steam circulation area, now, the flow that steam is transported to power-off sensing action module 200 will reduce, the speed that power-off sensing action module 200 heats up will slow down, and the boiling time of insulating pot 100 will extend.For another example, valve 50 can also be all placed in steam channel 20, i.e., valve 50 overlaps with the cross section of steam channel 20, now, steam circulation area will level off to zero, and steam will completely be intercepted by valve 50 and cannot be transported to power-off sensing action module 200 substantially, and insulating pot 100 is by constantly boiling.Therefore, can realize controlling the boiling time of insulating pot 100 by the relative position of the relative steam passage 20 of regulating valve 50.Certainly, description here is only illustrative, and does not represent or imply that valve of the invention 50 is inevitable or certain with above three position.

In some embodiments of the invention, valve 50 at least has maximum open position (now, steam circulation area is maximum, as shown in Figure 8) and fully closed position (now, steam circulation area minimum, as shown in Figure 10), in maximum open position, valve 50 constitutes a part for the tube wall for forming steam channel 20 at valve 50, at valve 50 in fully closed position, the cut-off steam channel 20 of valve 50, now, valve 50 overlaps with the cross-sectional area of steam channel 20.So design, when if desired extending the boiling time of insulating pot 100, valve 50 can be arranged on fully closed position；If desired it is quick to stop boiling, then valve 50 can be arranged on maximum open position；Certainly, if desired the boiling time of proper extension insulating pot 100, it is unlikely to that the constantly boiling time is too permanent again, then valve 50 can be set the position between maximum open position and fully closed position, you can suitably to reduce the position of the steam circulation area of steam channel 20.Thus, user can as needed make different set-up modes, improve the practicality of insulating pot 100.

Additionally, insulating pot 100 according to embodiments of the present invention is not particularly limited for the mode of the relative position of regulating valve 50, in some embodiments of the invention, valve 50 carries out position adjustments with rotating manner relative steam passage 20.For example, valve 50 can be connected by valve shaft 51 with for forming the tube wall of steam channel 20, the relative steam passage 20 of valve 50 can be rotated between maximum open position and fully closed position.Wherein, valve shaft 51 can be set along the horizontal direction of the tube wall of steam channel 20, and valve shaft 51 can also set (not shown) along the longitudinal direction of the tube wall of steam channel 20.Certainly, the present invention is not limited thereto, valve 50 can also push-pull fashion relative steam passage 20 carry out position adjustments, when being promoted toward the inner side direction of steam channel 20, steam circulation area reduces, on the contrary, when being pulled out toward the lateral direction of steam channel 20, steam circulation area increases, hereby it is achieved that promoting amplitude size to change the steam circulation area of steam channel 20 by controlling valve 50.

User is adjusted to the position of valve 50 for convenience, the insulating pot 1001 of the embodiment of the present invention can also include manual operation unit 60, manual operation unit 60 is connected with the position of the relative steam passage 20 of regulating valve 50 with valve 50, and manual operation unit 60 can be emerging in outside bottle body 10 at least in part.In one particular embodiment of the present invention, manual operation unit 60 is it is so structured that action bars 61, and the handle 40 of bottle body 10 of the part of action bars 61 from bottle body 10 extends from inside to outside.So, user can be adjusted with hand-held operation bar 61 to the position of valve 50, thus, it is possible to improve the security and convenience of the operation of insulating pot 100.

Alternatively, valve 50 is into a single integrated structure with control stick 61.Thus, it is possible to improve valve 50 and action bars bonding strength, and it is easy to machine-shaping, reduces installation procedure.

In still other embodiments of the invention, upper seal 81 and lower seal 82 can be arranged with as shown in Fig. 6 combinations Fig. 2, on steam pipe 23, thermal sensitive piece 31 is located between upper seal 81 and lower seal 82.That is, buffering air storing cavity 70 can be limited in upper seal 81 and lower seal 82.It is appreciated that, no matter which kind of position thermal sensitive piece 31 is in relative to steam channel 20, can all there is certain air gap in the cooperation part of thermal sensitive piece 31 and upper valve 232, lower valve 233 and steam pipe 23, so, after boiling water in insulating pot 100, steam can be flowed in the gap between handle 40 and steam pipe 21 from air gap.Buffering air storing cavity 70 can limit other positions of steam flow handle 40, so that other positions of handle 40 will not be hot because of steam, give the preferable experience sense of user.Steam is stored in buffering air storing cavity 70 can also be extended the time point of temperature controller perception vapor (steam) temperature or temperature controller is heated up slowly, such that it is able to prevent temperature controller from early jumping or extending the boiling time of insulating pot 100.

In still other embodiments of the invention, upper seal 81 and lower seal 82 can be arranged with as shown in Figure 12 combinations Figure 13, on steam pipe 21, valve 50 is located between upper seal 81 and lower seal 82.That is, buffering air storing cavity 70 can be limited in upper seal 81 and lower seal 82.It is appreciated that, no matter valve 50 is in fully closed position, or hair is in maximum open position, or valve 50 is between fully closed position and maximum open position, can all there is certain air gap in the cooperation part of valve 50 and steam pipe 23, upper valve film gate 232 and lower valve 233, so, after the boiling water in insulating pot 100, steam can be flowed in the gap between handle 40 and steam pipe 23 from air gap.Buffering air storing cavity 70 can limit other positions of steam flow handle 40, give the preferable experience sense of user.Steam is stored in buffering air storing cavity 70 can also be extended the time point of temperature controller perception vapor (steam) temperature or temperature controller is heated up slowly, so as to extend the boiling time of insulating pot 100.

In one particular embodiment of the present invention, upper seal 81 can be arranged between the inner surface of the outer surface of steam pipe 23 and handle 40, and lower seal 82 can be arranged between the outer surface of steam pipe 23 and the inner surface of handle 40 or the outer surface of bottle body 10.That is, upper seal 81, lower seal 82, the inner surface of bottle body handle 40 and steaming The outer surface of steam pipe 23 can jointly limit buffering air storing cavity 70, or the outer surface of upper seal 81, lower seal 82, the inner surface of bottle body handle 60 and bottle body can jointly limit buffering air storing cavity 70.

In one particular embodiment of the present invention, upper seal 81 and lower seal 82 are it is so structured that the flap seal cushion rubber of annular.For example, upper flap seal cushion rubber can be set between the inner surface of the outer surface of valve 232 and bottle body handle 40.Lower sheet sealing ring can be set between the outer surface of lower valve 233 and the inner surface of bottle body handle 40 or the outer surface of bottle body.It is understood that above-mentioned be only illustrative, it is not limitation of the present invention.

In the description of invention, it will be appreciated that, term " on ", D score, " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies and describes, with specific orientation, with specific azimuth configuration and operation, therefore must be not considered as limiting the invention rather than the device or element for indicating or imply meaning.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " connected ", " connection ", " fixation " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integrally；Can mechanically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two element internals connection or two interaction relationships of element, unless otherwise clearly restriction.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can as the case may be understood.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be the first and second feature directly contacts, or the first and second features pass through intermediary mediate contact.

In the description of this specification, the description of reference term " one embodiment ", " some embodiments ", " example ", " specific example " or " some examples " etc. means that the specific features, structure, material or the feature that are described with reference to the embodiment or example are contained at least one embodiment of the invention or example.In this manual, the schematic representation to above-mentioned term is necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature can in an appropriate manner be combined in any one or more embodiments or example.Additionally, in the case of not conflicting, the feature of the different embodiments or example described in this specification and different embodiments or example can be combined and combined by those skilled in the art.

Although embodiments of the invention have been shown and described above, it is appreciated that, above-described embodiment is exemplary, it is impossible to be interpreted as limitation of the present invention, and one of ordinary skill in the art can be changed to above-described embodiment, change, replacing and modification within the scope of the invention.

Claims (22)

1. a kind of insulating pot, it is characterised in that including：

Bottle body；

Power-off sensing action module, the power-off sensing action module is arranged to the temperature liter in the power-off sensing action module The galvanic circle formed between the insulating pot and power supply is disconnected when up to presetting power-off temperature；

Steam flow performing module, the steam flow performing module is arranged for flowing to the power-off sensing action module Steam flow be controlled with can at least extend it is described power-off sensing action module be warming up to it is described it is default power-off temperature needed for Time.

2. insulating pot according to claim 1, it is characterised in that the insulating pot has steam channel, the steam Passage is arranged for at least part of steam in the bottle body being delivered to the power-off sensing action module.

3. insulating pot according to claim 2, it is characterised in that the steam flow performing module sets at least in part Put in the steam channel.

4. insulating pot according to claim 3, it is characterised in that the steam flow performing module is arranged for changing Become the steam circulation area of the steam channel.

5. insulating pot according to claim 4, it is characterised in that the steam flow performing module is arranged to connect Continuous ground is adjusted to the steam circulation area.

6. insulating pot according to claim 2, it is characterised in that the steam flow performing module includes：Temperature sensibility, The temperature sensibility is arranged in the steam channel and the temperature sensibility is arranged to perceive vapor (steam) temperature and deform upon to change Become the steam circulation area of the steam channel.

7. insulating pot according to claim 6, it is characterised in that the temperature sensibility is configured to thermal sensitive piece, the temperature-sensitive Piece is built in the steam channel.

8. insulating pot according to claim 7, it is characterised in that the thermal sensitive piece includes：Body and shape can occur The variant part of change, one end of the variant part is fixing end, and the fixing end is connected with the body, the variant part The other end is free end.

9. insulating pot according to claim 7, it is characterised in that the relatively described steam channel of the thermal sensitive piece is detachable.

10. insulating pot according to claim 7, it is characterised in that the inwall of the thermal sensitive piece and the steam channel It is close to and the steam channel is isolated into positioned at the upper steam channel on thermal sensitive piece top and positioned at the thermal sensitive piece bottom in face Lower steam channel.

11. insulating pots according to claim 2, it is characterised in that the steam flow performing module includes：Valve, The relatively described steam channel position of the valve is adjustable, so as to change the steam circulation area of the steam channel.

12. insulating pots according to claim 11, it is characterised in that the valve is logical with the relatively described steam of rotating manner Road carries out position adjustments.

13. insulating pots according to claim 11, it is characterised in that the valve at least has maximum open position and complete Full closure position, in the maximum open position, the valve is structured to be formed the pipe of the steam channel at the valve A part for wall, at the valve in the fully closed position, the valve separates the steam channel.

14. insulating pots according to claim 13, it is characterised in that the relatively described steam channel of the valve can be in institute State and rotated between maximum open position and fully closed position.

15. insulating pots according to claim 2, it is characterised in that also include：

Steam pipe, limits the steam channel in the steam pipe, the steam pipe includes：The upper steam pipe that is sequentially connected, Upper valve, lower valve and lower steam pipe.

16. insulating pots according to claim 2, it is characterised in that also include：

Steam pipe, limits the steam channel in the steam pipe, the steam pipe is built in the kettle of the bottle body outer surface In body handle.

17. insulating pots according to claim 1, it is characterised in that the steam flow performing module is steamed for hand Steam flow amount performing module.

18. insulating pots according to claim 1, it is characterised in that also include：Steam flow control module, it is described Steam flow control module is connected and with the steam flow performing module for controlling the steam flow performing module to act.

19. insulating pots according to claim 1, it is characterised in that the power-off sensing action module includes temperature controller.

20. insulating pots according to claim 16, it is characterised in that be arranged with the steam pipe upper seal and under Seal, the steam flow performing module is arranged between the upper seal and lower seal.

21. insulating pots according to claim 20, it is characterised in that the upper seal is arranged on the steam pipe Between the inner surface of outer surface and the handle, the lower seal is arranged on the outer surface of the steam pipe and the handle Between the outer surface of inner surface or the bottle body.

22. insulating pots according to claim 21, it is characterised in that the upper seal and the equal structure of the lower seal It is the flap seal cushion rubber of annular to make.