CN107028456B - Thermal insulation cup and method for yielding water - Google Patents

Abstract

A kind of thermal insulation cup and method for yielding water of the present invention, the thermal insulation cup include the first bottle, the second bottle, the first water pipe, the second water pipe, outlet pipe, mixing chamber, the first water pump, the second water pump, the first lid and the second lid.First water pipe one end is stretched to by the first pore in the first bottle, and the first water pipe other end is connected with the first water inlet.Second water pipe one end is stretched to by the second pore in the second bottle, and the second water pipe other end is connected with the second water inlet.One end of outlet pipe is connected with third water outlet.First water pump is arranged on the first water pipe, and the second water pump is arranged on the second water pipe.First lid is installed on the first water inlet tap, and the second lid is installed on the second water inlet tap.Above-mentioned thermal insulation cup can be by hot water rapid translating at the water of preference temperature since the real-time convergence in mixing chamber mixes hot water with cold water, and is directly sent out for users to use by outlet pipe, operates more convenient.

Description

Thermal insulation cup and method for yielding water

Technical field

The present invention relates to a kind of cups, more particularly to a kind of thermal insulation cup and method for yielding water.

Background technology

Traditional thermal insulation cup is packed into the longer period of time after hot water, and the water in thermal insulation cup all can not be straight due to too boiling hot It connects and drinks.Typically first the hot water in thermal insulation cup is poured out to cup, after the hot water in cup is then cooled to preference temperature It is drunk, or will be drunk after the hot water incorporation cold water in cup.However, hot water is cooled to the operation side of preference temperature Formula will take a long time, in addition, the mode of operation that cold water is mixed with hot water is also intended to spend more time, and operate Get up to be more troublesome.

Invention content

Based on this, it is necessary to overcome the deficiencies of existing technologies, provide a kind of thermal insulation cup and method for yielding water, it can be by hot water Rapid translating is at the water of preference temperature, and it is more convenient to operate.

Its technical solution is as follows：A kind of thermal insulation cup, including：First bottle and the second bottle, first bottle are heat preservation There is the first water inlet tap and the first pore, second bottle to have the second water inlet tap and the second pore for bottle, first bottle； First water pipe, the second water pipe, outlet pipe and mixing chamber, the mixing chamber are equipped with the first water inlet, the second water inlet and the Three water outlets, first water pipe one end are stretched to by first pore in first bottle, and first water pipe is another One end is connected with first water inlet, and second water pipe one end stretches to second bottle by second pore In, the second water pipe other end is connected with second water inlet, one end of the outlet pipe and the third water outlet It is connected；First water pump, the second water pump, first water pump are arranged on first water pipe, and the second water pump setting exists On second water pipe；First lid and the second lid, first lid are installed on first water inlet tap, and described second Lid is installed on second water inlet tap.

A kind of method for yielding water of thermal insulation cup, includes the following steps：

The hot water temperature T1 in first bottle is obtained by the first water temperature sensor, the second water temperature sensor is for obtaining The cold water temperature T2 in the second bottle is taken, the pressure of hot water of first bottle body bottom is obtained by first hydraulic pressure sensor P1, second hydraulic pressure sensor obtain the cold water hydraulic pressure P2 of second bottle body bottom；

By the temperature T2 of preset temperature Ts, the temperature T1 of hot water and cold water, the flow velocity of required hot water and cold water is calculated Ratio Rw；

Flow rate of hot water V1 and chilled water flow velocity V2 are obtained by preset flow rate Vs and flow rate Rw；

By flow rate of hot water V1, chilled water flow velocity V2, pressure of hot water P1, cold water hydraulic pressure P2, hot water water temperature T 1 and cold water water temperature T 2, Obtain the first required pumping for water pump horsepower W1 and the second pumping for water pump horsepower W2；

According to drawing water, horsepower W1 and W2 starts the first water pump and the second water pump.

When using above-mentioned thermal insulation cup, the first lid and the second lid can be opened, hot water is installed in the first bottle, the One bottle has heat insulation effect, can be by the hot water thermal insulating long period；If the second bottle has heat insulation effect, it is packed into cold water, If without heat insulation effect, hot water or cold water is installed；Then, start the first water pump, the second water pump, the hot water in the first bottle is through the One water pipe is entered in mixing chamber through the second water pipe with the cold water in the second bottle and is mixed in real time, obtains preference temperature Water sent out by outlet pipe.Wherein it is possible to drawing water by draw water horsepower size and the second water pump that control the first water pump Horsepower size, it is mixed so as to preferably control to adjust the flow rate of hot water in the first water pipe and the chilled water flow velocity in the second water pipe The water temperature of Heshui.It, can will be hot since the real-time convergence in mixing chamber mixes hot water with cold water in this way, above-mentioned thermal insulation cup Water rapid translating at preference temperature water, and directly by outlet pipe send out for users to use, operate more convenient.

The thermal insulation cup further includes the first breather valve and the second breather valve in one of the embodiments, and described first Breather valve is arranged on first bottle, and second breather valve is arranged on second bottle.Under normal conditions, first The first breather valve on bottle remains off, to ensure that the first bottle has preferable heat insulation effect.When needing first When hot water in bottle is mixed with the cold water in the second bottle, then the first breather valve and the second breather valve are opened, it is hot in this way Water is flowed out from the first bottle, and gas will enter in the first bottle the air pressure maintained in the first bottle by the first breather valve Balance；Cold water is flowed out from the second bottle, and gas will be entered in the second bottle by the second breather valve to maintain the second bottle Interior air pressure balance.In other embodiments, it can also be not necessarily to that the first breather valve and the second breather valve is arranged, directly open first Lid and the second lid just can maintain the air pressure balance of the first bottle and the second bottle.

The thermal insulation cup further includes the first water temperature sensor, the second water temperature sensor, the in one of the embodiments, Three water temperature sensors and control module, first water temperature sensor are used to obtain the hot water temperature in first bottle, institute The second water temperature sensor is stated for obtaining the cold water temperature in second bottle, the third water temperature sensor is for obtaining institute State the mixing water temperature in outlet pipe；The control module is passed with first water pump, second water pump, first water temperature Sensor, second water temperature sensor and the third water temperature sensor are electrically connected；The control module is used for according to Hot water temperature, the cold water temperature and the mixing water temperature control draw water horsepower size and/or the control of first water pump Make a horsepower size of drawing water for second water pump.

In this way, when mixing water temperature is relatively low, control module just controls the increase of the first water pump and draws water horsepower, or control the Two water pumps reduce the horsepower that draws water, to improve mixing water temperature.Adjust the mixing of hot water and cold water in real time according to three's water temperature Ratio, to which just the temperature for the mixing water that outlet pipe is sent out can be accurately controlled within a preset range, better user experience.This In embodiment, the first water temperature sensor is arranged in the first bottle body bottom and close to the water inlet end of the first water pipe, for incude into Enter the hot water temperature to the first water pipe；Second water temperature sensor be arranged the second bottle body bottom and close to the second water pipe into Water end (W.E.), for incuding the cold water temperature for entering the second water pipe；Third water temperature sensor is arranged in third water outlet, for feeling The mixing water temperature for answering outlet pipe to send out.Alternatively, the first bottle, the second bottle are equipped with the first extension rod, first extends rod end Portion is located at bottle body bottom, and the first water temperature sensor, the setting of the second water temperature sensor extend boom end second.

The thermal insulation cup further includes the first hydraulic pressure sensor and the second hydraulic pressure sensor in one of the embodiments, First hydraulic pressure sensor is used to obtain the first hydraulic pressure information at first bottle body bottom, second hydraulic pressure sensor For obtaining the second hydraulic pressure information at second bottle body bottom, the control module and first hydraulic pressure sensor and institute The electric connection of the second hydraulic pressure sensor is stated, the control module is used to obtain first bottle according to the first hydraulic pressure information Interior water and the water in second bottle is obtained according to the second hydraulic pressure information.In this way, being passed according to the first hydraulic pressure First hydraulic pressure information of sensor detection and the second hydraulic pressure information of the second hydraulic pressure sensor detection, it can be determined that go out first bottle The water in water and the second bottle in body.In the present embodiment, the first hydraulic pressure sensor, the second hydraulic pressure sensor difference are straight It connects and is arranged in the first bottle body bottom, the second bottle body bottom.Alternatively, the first bottle, the second bottle are equipped with the second extension rod, second Extend boom end and be located at bottle body bottom, the first hydraulic pressure sensor, the setting of the second hydraulic pressure sensor extend boom end second.

The thermal insulation cup further includes the first breather valve, the second breather valve, the first breather valve in one of the embodiments, Opening adjustment mechanism and the second breather valve opening adjustment mechanism, first breather valve is arranged on first bottle, described Second breather valve is arranged on second bottle, the first breather valve opening adjustment mechanism and the second ventilation valve opening Regulating mechanism and the control module are electrically connected, the control module be used for according to the first pumping for water pump horsepower size, The second pumping for water pump horsepower size is opened to control the first breather valve opening adjustment mechanism adjusting first breather valve It spends size and control the second breather valve opening adjustment mechanism adjusts the second breather valve opening size.In this way, when the When one water pump, the second water pump carry out pumping operation, control module controls the first breather valve opening adjustment mechanism and the second breather valve Opening adjustment mechanism opens the first breather valve, the second breather valve respectively, just enable in this way the first bottle air pressure, second bottle The air pressure of body maintains balance, and water is swimmingly extracted out convenient for the first water pump, the second water pump.

In one of the embodiments, the first breather valve opening adjustment mechanism include the first drive rod, described first Breather valve includes the first chock plug and the first pipe fitting；First pipe fitting one end stretches in first bottle and is equipped with and institute The first adaptable cascaded surface of the first chock plug is stated, the first pipe fitting side wall is equipped with the first venthole communicated with external environment, First drive rod is movably installed in first pipe fitting, and first drive rod is connect with first chock plug；It is described First drive rod can drive first chock plug to compress first cascaded surface or separated with first cascaded surface, described When first chock plug compresses first cascaded surface, first breather valve is closed.In the present embodiment, on the first chock plug It can be provided with the first sealing ring, when such first chock plug contradicts the first cascaded surface, the first sealing ring can ensure the first chock plug The preferable leakproofness between the first cascaded surface.

The thermal insulation cup further includes third lid and the head for being located at first bottle in one of the embodiments, End and the cover body outside the head end of second bottle, the driving mechanism of first water pump is arranged outside first bottle, And in the cover body, the driving mechanism of second water pump is arranged outside second bottle and is located at the cover body In, the mixing chamber, first water pipe reach pipeline section, second water pipe outside first bottle reach it is described Pipeline section, the outlet pipe outside second bottle are located in the cover body；The cover body is equipped with third pore, the outlet pipe It is reached outside the cover body by the third pore, the third cover cap is located at the water outlet tube end.In this way, cover body is kept away It is exposed to exempt from the driving mechanism of the first water pump, the driving mechanism of the second water pump and mixing chamber, can play a protective role.In thermal insulation cup Hot water when not in use, third cover cap is located at water outlet tube end, is avoided that in the first bottle that hot water hot gas passes through the first water Pipe, outlet pipe outflow, play insulation effect, third lid can also play outlet pipe preferable guarantor to the hot water in the first bottle Shield acts on.

The thermal insulation cup further includes the first snorkel, the second snorkel, third snorkel in one of the embodiments, And gas-shaft hood, first snorkel one end is through first bottle and stretches in first bottle, and described first is logical The tracheae other end is connected to third snorkel one end, and second snorkel one end is through second bottle and stretches into To in second bottle, the second snorkel other end is connected to third snorkel one end, and the gas-shaft hood is used for Block the other end of the third snorkel.In this way, when need by the cold water in the hot water and the second bottle in the first bottle into When row mixing, gas-shaft hood can be opened, such first bottle is communicated by the first snorkel, third snorkel with external environment, Second bottle is communicated by the second snorkel, third snorkel with external environment, to maintain in the first bottle and the second bottle Air pressure balance.

First snorkel is exposed to the pipeline section of first bottle, described second logical in one of the embodiments, Tracheae is exposed to the pipeline section of second bottle and the third snorkel is located in the cover body, and the cover body is equipped with the 4th pipe Hole, the third snorkel are reached by the 4th pore outside the cover body；The third lid is connected with rotor plate, institute It states rotor plate to be rotatably connected with the cover body, the gas-shaft hood is arranged on the rotor plate, and the gas-shaft hood is at described turn Position on movable plate is corresponding to the third snorkel end position.In this way, when rotor plate is closed, third lid covers water outlet Tube end, gas-shaft hood block third ventilation tube end simultaneously；When rotor plate is opened, third lid is opened, and gas-shaft hood is from third Tube end of ventilating is extracted out.

First water pipe includes the first pipeline section of bandlet shape in one of the embodiments, and first pipeline section is located at Outside first bottle, first pipeline section is connected to the first water inlet of the mixing chamber；Second water pipe includes Second pipeline section of bandlet shape, second pipeline section are located at outside second bottle, second pipeline section and the mixing chamber The second water inlet connection；And first pipeline section is located at the wherein side of the mixing chamber, second pipeline section is located at institute State the other side of mixing chamber.In this way, it is bandlet that hot water is sent to the shape in mixing chamber by the first pipeline section of bandlet shape Shape, it is bandlet shape that cold water is sent to the shape in mixing chamber by the second pipeline section of bandlet shape, and hot water is with cold water in mixing chamber It can quickly be mixed after collecting in room, that is, ensure that the smoothness of flow, in turn ensure the mixing adequacy of flow.

Description of the drawings

Fig. 1 is the vacuum cup structure schematic diagram described in the one of embodiment of the present invention；

Fig. 2 is the internal structure schematic diagram of the thermal insulation cup described in the one of embodiment of the present invention；

Fig. 3 is the knot of the present invention described in one embodiment the first breather valve and the first breather valve opening adjustment mechanism Structure schematic diagram；

Fig. 4 is the vacuum cup structure schematic diagram described in another embodiment of the present invention；

Fig. 5 is the structural schematic diagram of the first pipeline section, the second pipeline section and mixing chamber described in the embodiment of the present invention.

10, the first bottle, the 11, first water inlet tap, the 12, first pore, the 20, second bottle, the 21, second water inlet tap, 22, Two pores, the 31, first water pipe, the 311, first pipeline section, the 32, second water pipe, the 321, second pipeline section, 33, outlet pipe, 34, mixing chamber Room, the 41, first water pump, the 42, second water pump, the 51, first lid, the 52, second lid, 53, third lid, 54, cover body, 541, Three pores, the 542, the 4th pore, 55, rotor plate, the 61, first breather valve, the 611, first chock plug, the 612, first pipe fitting, 613, One cascaded surface, the 614, first sealing ring, the 615, first venthole, the 62, second breather valve, the 63, first breather valve aperture regulation machine Structure, the 631, first drive rod, the 64, second breather valve opening adjustment mechanism, the 71, first water temperature sensor, the 72, second water temperature sensing Device, 73, third water temperature sensor, the 74, first extension rod, the 81, first hydraulic pressure sensor, the 82, second hydraulic pressure sensor, 83, Two extension rods, 91, third snorkel, 92, gas-shaft hood.

Specific implementation mode

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, below in conjunction with the accompanying drawings to the present invention Specific implementation mode be described in detail.Many details are elaborated in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case of violating intension of the present invention, therefore the present invention is not limited by following public specific embodiment.

In the description of the present invention, it is to be understood that, term " first ", " second " are used for description purposes only, and cannot It is interpreted as indicating or implies relative importance or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include at least one of the features.In the description of the present invention, " multiple " It is meant that at least two, such as two, three etc., unless otherwise specifically defined.

It in the description of the present invention, it is to be understood that, can be with when an element is considered as " connection " another element It is directly to another element or may be simultaneously present intermediary element.On the contrary, when element be referred to as " direct " with it is another When element connects, intermediary element is not present.

As shown in Figure 1, a kind of thermal insulation cup, including the first bottle 10, the second bottle 20, the first water pipe 31, the second water pipe 32, Outlet pipe 33, mixing chamber 34, the first water pump 41, the second water pump 42, the first lid 51 and the second lid 52.

First bottle 10 is vacuum flask, and first bottle 10 has the first water inlet tap 11 and the first pore 12.Institute Stating the second bottle 20 has the second water inlet tap 21 and the second pore 22.The mixing chamber 34 enters equipped with the first water inlet, second The mouth of a river and third water outlet.Described first water pipe, 31 one end is stretched to by first pore 12 in first bottle 10, First water pipe, 31 other end is connected with first water inlet.Described second water pipe, 32 one end passes through second pore 22 stretch in second bottle 20, and 32 other end of the second water pipe is connected with second water inlet.The water outlet One end of pipe 33 is connected with the third water outlet.First water pump 41 is arranged on first water pipe 31, and described the Two water pumps 42 are arranged on second water pipe 32.First lid 51 is installed on first water inlet tap 11, and described Two lids 52 are installed on second water inlet tap 21.

When using above-mentioned thermal insulation cup, the first lid 51 and the second lid 52 can be opened, is installed in the first bottle 10 Hot water, the first bottle 10 have heat insulation effect, can be by the hot water thermal insulating long period；If the second bottle 20 has heat insulation effect, It is then packed into cold water, if without heat insulation effect, installs hot water or cold water；Then, the first water pump 41 of startup, the second water pump 42, first Hot water in bottle 10 is entered through the second water pipe 32 in mixing chamber 34 through the first water pipe 31, with the cold water in the second bottle 20 It is mixed in real time, the water for obtaining preference temperature is sent out by outlet pipe 33.Wherein it is possible to the pumping by controlling the first water pump 41 A horsepower size of drawing water for water horse power size and the second water pump 42, to adjust the flow rate of hot water in the first water pipe 31 and the second water pipe Chilled water flow velocity in 32, so as to preferably control the water temperature of mixing water.In this way, above-mentioned thermal insulation cup, due to hot water and cold water Real-time convergence mixes in mixing chamber 34, can be by hot water rapid translating at the water of preference temperature, and directly passes through outlet pipe 33 send out for users to use, operate more convenient.

In the present embodiment, please continue to refer to Fig. 1, the thermal insulation cup further includes the first breather valve 61 and the second breather valve 62.First breather valve 61 is arranged on first bottle 10, and second breather valve 62 is arranged in second bottle On 20.Under normal conditions, the first breather valve 61 on the first bottle 10 remains off, with ensure the first bottle 10 have compared with Good heat insulation effect.When needing to be mixed the hot water in the first bottle 10 with the cold water in the second bottle 20, then open First breather valve 61 and the second breather valve 62, such hot water are flowed out from the first bottle 10, and gas will pass through the first breather valve 61 The air pressure balance maintained in the first bottle 10 is entered in the first bottle 10；Cold water is flowed out from the second bottle 20, and gas will The air pressure balance maintained in the second bottle 20 is entered in the second bottle 20 by the second breather valve 62.In other embodiments In, it can also be not necessarily to that the first breather valve 61 and the second breather valve 62 is arranged, directly open the first lid 51 and the second lid 52 just It can maintain the air pressure balance of the first bottle 10 and the second bottle 20.

In addition, the thermal insulation cup further includes the first water temperature sensor 71, the second water temperature sensor 72, third water temperature sensing Device 73 and control module.First water temperature sensor 71 is used to obtain hot water temperature in first bottle 10, and described the Two water temperature sensors 72 are used to obtain the cold water temperature in second bottle 20, and the third water temperature sensor 73 is for obtaining Mixing water temperature in the outlet pipe 33.The control module and first water pump 41, second water pump 42, described the One water temperature sensor 71, second water temperature sensor 72 and the third water temperature sensor 73 are electrically connected.The control mould Block is used to control drawing water for first water pump 41 according to the hot water temperature, the cold water temperature and the mixing water temperature Horsepower size and/or horsepower size of drawing water for controlling second water pump 42.In this way, when mixing water temperature is relatively low, mould is controlled Block just controls the first water pump 41 and increases the horsepower that draws water, or the second water pump 42 of control reduces the horsepower that draws water, to improve mixed water temperature Degree.The mixed proportion for adjusting hot water and cold water in real time according to three's water temperature, it is mixed to just send out outlet pipe 33 The temperature of Heshui accurately controls within a preset range, better user experience.In the present embodiment, the setting of the first water temperature sensor 71 exists First bottle, 10 bottom and close to the water inlet end of the first water pipe 31, for incuding the hot water temperature for entering the first water pipe 31； Second water temperature sensor 72 is arranged in 20 bottom of the second bottle and close to the water inlet end of the second water pipe 32, enters for incuding To the cold water temperature of the second water pipe 32；Third water temperature sensor 73 is arranged in third water outlet, is sent for incuding outlet pipe 33 The mixing water temperature gone out.Alternatively, referring to Fig. 2, the first bottle 10, the second bottle 20 are equipped with the first extension rod 74, first prolongs 74 end of boom is located at bottle body bottom, and the first water temperature sensor 71, the second water temperature sensor 72 are arranged at 74 end of the first extension rod Portion.

In addition, the thermal insulation cup further includes the first hydraulic pressure sensor 81 and the second hydraulic pressure sensor 82.First water Pressure sensor 81 is used to obtain the first hydraulic pressure information at 10 bottom of the first bottle, and second hydraulic pressure sensor 82 is used for Obtain the second hydraulic pressure information at 20 bottom of the second bottle.The control module and first hydraulic pressure sensor 81 and institute The electric connection of the second hydraulic pressure sensor 82 is stated, the control module is used to obtain described first bottle according to the first hydraulic pressure information Water in body 10 and the water in second bottle 20 is obtained according to the second hydraulic pressure information.In this way, according to first Second hydraulic pressure information of the first hydraulic pressure information and the detection of the second hydraulic pressure sensor 82 that hydraulic pressure sensor 81 detects, can sentence Break and the water in the first bottle 10 and the water in the second bottle 20.In addition, since the horsepower that draws water when water pump is certain, water Flow velocity is very fast when pressing larger, and flow velocity is slower when hydraulic pressure is smaller.Therefore, for different hydraulic pressure, identical flow velocity is obtained, then is needed It to draw water horsepower by different and realizes.In this way, control module is additionally operable to detected according to the first hydraulic pressure sensor 81 first Hydraulic pressure information and the second hydraulic pressure information of the second hydraulic pressure sensor 82 detection come adjust the first water pump 41, second water pump 42 draws water Horsepower.

In the present embodiment, the first hydraulic pressure sensor 81, the second hydraulic pressure sensor 82 are set up directly on the first bottle 10 respectively Bottom, 20 bottom of the second bottle.Alternatively, referring to Fig. 2, the first bottle 10, the second bottle 20 are equipped with the second extension rod 83.The Two extension rods, 83 end is located at bottle body bottom, and the first hydraulic pressure sensor 81, the second hydraulic pressure sensor 82 are arranged in the second extension rod 83 ends.

Further, referring again to Fig. 1, the thermal insulation cup further includes the first breather valve 61, the second breather valve 62, first Breather valve opening adjustment mechanism 63 and the second breather valve opening adjustment mechanism 64.First breather valve 61 is arranged described first On bottle 10, second breather valve 62 is arranged on second bottle 20.The first breather valve opening adjustment mechanism 63 And the second breather valve opening adjustment mechanism 64 is electrically connected with the control module.The control module is used for according to A draw water horsepower size, second water pump 42 of first water pump 41 draws water horsepower size to control the first breather valve aperture regulation Mechanism 63 adjusts 61 opening size of the first breather valve and control the second breather valve opening adjustment mechanism 64 adjusts institute State 62 opening size of the second breather valve.In this way, when the first water pump 41, the second water pump 42 carry out pumping operation, control module control It makes the first breather valve opening adjustment mechanism 63 and the second breather valve opening adjustment mechanism 64 opens the first breather valve 61, second respectively The air pressure of breather valve 62, the air pressure, the second bottle 20 that just enable to the first bottle 10 in this way maintains balance, is convenient for the first water pump 41, the second water pump 42 swimmingly extracts water out.

In one embodiment, referring to Fig. 3, the first breather valve opening adjustment mechanism 63 includes the first drive rod 631.First breather valve 61 includes the first chock plug 611 and the first pipe fitting 612.Described first pipe fitting, 612 one end stretches to institute It states in the first bottle 10 and equipped with the first cascaded surface 613 being adapted with first chock plug 611,612 side of the first pipe fitting Wall is equipped with the first venthole 615 communicated with external environment.First drive rod 631 is movably installed in first pipe fitting In 612, first drive rod 631 is connect with first chock plug 611.First drive rod 631 can drive described One chock plug 611 compresses first cascaded surface 613 or is separated with first cascaded surface 613.First chock plug 611 compresses When first cascaded surface 613, first breather valve 61 is closed.It can be in the present embodiment, on the first chock plug 611 It is provided with the first sealing ring 614, when such first chock plug 611 contradicts the first cascaded surface 613, the first sealing ring 614 can ensure Preferable leakproofness between first chock plug 611 and the first cascaded surface 613.Second breather valve opening adjustment mechanism 64 and the second breather valve 62 can be with similar designs, without repeating.

In one embodiment, Fig. 2 and Fig. 4 is please referred to, the thermal insulation cup further includes third lid 53 and is located at institute State the cover body 54 outside the head end of the first bottle 10 and the head end of second bottle 20.The driving mechanism of first water pump 41 is set It sets outside first bottle 10 and in the cover body 54, the driving mechanism of second water pump 42 is arranged described Outside second bottle 20 and in the cover body 54.The mixing chamber 34, first water pipe 31 reach described first Pipeline section, second water pipe 32 outside bottle 10 reach pipeline section, the outlet pipe 33 outside second bottle 20 and are provide with In the cover body 54.The cover body 54 is equipped with third pore 541.The outlet pipe 33 is stretched out by the third pore 541 To outside the cover body 54, the lid of third lid 53 is located at 33 end of the outlet pipe.In this way, cover body 54 avoids the first water pump 41 Driving mechanism, the driving mechanism of the second water pump 42 and mixing chamber 34 it is exposed, can play a protective role.Hot water in thermal insulation cup When not in use, the lid of third lid 53 is located at 33 end of outlet pipe, is avoided that the hot gas of hot water in the first bottle 10 by first Water pipe 31, outlet pipe 33 outflow, and play insulation effect to the hot water in the first bottle 10, third lid 53 also can be to outlet pipe 33 Play preferable protective effect.

Further, the thermal insulation cup further includes the first snorkel, the second snorkel, third snorkel 91 and gas-shaft hood 92.First snorkel one end is through first bottle 10 and stretches in first bottle 10, first ventilation The pipe other end is connected to described 91 one end of third snorkel.Second snorkel one end is through second bottle 20 and stretches Enter into second bottle 20, the second snorkel other end is connected to described 91 one end of third snorkel.The tracheae The other end of the plug 92 for blocking the third snorkel 91.In this way, when need by the first bottle 10 hot water and second bottle When cold water in body 20 is mixed, gas-shaft hood 92 can be opened, such first bottle 10 is ventilated by the first snorkel, third Pipe 91 is communicated with external environment, and the second bottle 20 is communicated by the second snorkel, third snorkel 91 with external environment, to maintain Air pressure balance in first bottle 10 and the second bottle 20.

Further, first snorkel is exposed to the pipeline section of first bottle 10, second snorkel dew Pipeline section and the third snorkel 91 for second bottle 20 are located in the cover body 54.The cover body 54 is equipped with the 4th Pore 542.The third snorkel 91 is reached by the 4th pore 542 outside the cover body 54.The third lid 53 It is connected with rotor plate 55.The rotor plate 55 is rotatably connected with the cover body 54.The gas-shaft hood 92 is arranged in the rotation On plate 55, position of the gas-shaft hood 92 on the rotor plate 55 is corresponding to 91 end position of third snorkel.In this way, When rotor plate 55 is closed, third lid 53 covers 33 end of outlet pipe, and gas-shaft hood 92 blocks 91 end of third snorkel simultaneously； When rotor plate 55 is opened, third lid 53 is opened, and gas-shaft hood 92 is extracted out from 91 end of third snorkel.

In the present embodiment, referring to Fig. 5, first water pipe 31 includes the first pipeline section 311 of bandlet shape.First pipe Section 311 is located at outside first bottle 10, and first pipeline section 311 is connected to the first water inlet of the mixing chamber 34. Second water pipe 32 includes the second pipeline section 321 of bandlet shape.Second pipeline section 321 is located at outside second bottle 20, Second pipeline section 321 is connected to the second water inlet of the mixing chamber 34.And first pipeline section 311 is located at the mixing The wherein side of chamber 34, second pipeline section 321 are located at the other side of the mixing chamber 34.In this way, hot water passes through bandlet It is bandlet shape that first pipeline section 311 of shape, which is sent to the shape in mixing chamber 34, and cold water is sent by the second pipeline section 321 of bandlet shape It is bandlet shape to enter to the shape in mixing chamber 34, and hot water can be mixed quickly after collecting in mixing chamber 34 with cold water, that is, be protected The smoothness for having demonstrate,proved flow in turn ensures the mixing adequacy of flow.

Embodiment of the method one：

A kind of method for yielding water of thermal insulation cup, includes the following steps：First water pump described in synchronous averaging and second water pump, When the temperature for determining the mixing water that the third water outlet goes out is higher than preset temperature, reduce the horse of drawing water of first water pump Power, and/or increase the horsepower that draws water of second water pump；When the temperature for determining the mixing water that the third water outlet goes out is less than When preset temperature, increase the horsepower that draws water of first water pump, and/or reduce the horsepower that draws water of second water pump.

In this way, can be by the horsepower that draws water of draw water horsepower and the second water pump 42 of the first water pump 41 of control, to adjust Flow rate of hot water in first connecting tube 31 and the chilled water flow velocity in the second connecting tube 32, so as to preferably control the water of mixing water Temperature.Above-mentioned thermal insulation cup, since the real-time convergence in mixing chamber 34 mixes hot water with cold water, can by hot water rapid translating at The water of preference temperature, and directly sent out for users to use by outlet pipe 33, it operates more convenient.

Embodiment of the method two：

It is also wrapped before a kind of method for yielding water of thermal insulation cup, the first water pump described in synchronous averaging and the second water pump step Include step：

The hot water temperature T1 in first bottle 10, the second water temperature sensor 72 are obtained by the first water temperature sensor 71 For obtaining the cold water temperature T2 in the second bottle 20, first bottle body bottom is obtained by first hydraulic pressure sensor 81 Pressure of hot water P1, second hydraulic pressure sensor 82 obtains the cold water hydraulic pressure P2 of second bottle body bottom；

The flow rate Rw of hot water and cold water is obtained according to hot water temperature T1, cold water temperature T2 and preset temperature Ts；Wherein, Preset temperature Ts can be configured according to user demand.

Draw water horsepower and the second water pump of the first water pump are obtained according to flow rate Rw, pressure of hot water P1 and cold water hydraulic pressure P2 Horsepower ratio M that draws water；

According to horsepower ratio M drawing water come draw water horsepower size and the second water pump of the first water pump of synchronous control respectively of drawing water Horsepower size.

It so, it is possible so that the temperature of mixing water is closer to preset temperature Ts.

Further, further include step after the first water pump described in synchronous averaging and the second water pump step：It is logical It crosses third water temperature sensor 73 and obtains mixing water temperature T3 in the outlet pipe 33；

Mixing water temperature T3 is introduced into closed loop feedback system and obtains Δ T；

Δ T is corrected, correction temperature deviation Δ t is obtained；

The horsepower that draws water of draw water horsepower departure and the second water pump of the first water pump is calculated by correction temperature deviation Δ t Departure；

It is adjusted in synchronism the respectively according to horsepower departure of drawing water of draw water horsepower departure and the second water pump of the first water pump A horsepower size of drawing water for draw water horsepower size and the second water pump of one water pump.

In this way, when mixing water temperature is less than preset temperature Ts, control module just increases drawing water for first water pump 41 Horsepower, or reduce the horsepower that draws water of second water pump 42, to improve mixing water temperature.Adjusted in real time according to three's water temperature The mixed proportion for saving hot water and cold water, so that just can the temperature for the mixing water that outlet pipe 33 is sent out be accurately controlled in default model In enclosing, better user experience.

Embodiment of the method three：

A kind of method for yielding water of thermal insulation cup, includes the following steps：

The hot water temperature T1 in first bottle 10, the second water temperature sensor 72 are obtained by the first water temperature sensor 71 For obtaining the cold water temperature T2 in the second bottle 20, first bottle body bottom is obtained by first hydraulic pressure sensor 81 Pressure of hot water P1, second hydraulic pressure sensor 82 obtains the cold water hydraulic pressure P2 of second bottle body bottom；

By the temperature T2 of preset temperature Ts, the temperature T1 of hot water and cold water, the flow velocity of required hot water and cold water is calculated Ratio Rw；

By preset flow rate Vs and flow rate Rw, flow rate of hot water V1 and chilled water flow velocity V2 are calculated；

By flow rate of hot water V1 and chilled water flow velocity V2, in conjunction with pressure of hot water P1, cold water hydraulic pressure P2, hot water water temperature T 1 and cold water water Warm T2, according under specific water pump structure, flow velocity V and hydraulic pressure P, water temperature T and the correspondence existing for horsepower W that draws water obtain required The first pumping for water pump horsepower W1 and the second pumping for water pump horsepower W2；

According to drawing water, horsepower W1 and W2 starts the first water pump and the second water pump.

Embodiment of the method four：

A kind of method for yielding water of thermal insulation cup, includes the following steps：

It is synchronous to open the first water pump and the second water pump；

Mixing water temperature T3 is obtained, mixing water temperature T3 is introduced into the feedback of closed-loop system, is obtained and preset temperature Ts Temperature deviation Δ T；

Temperature deviation Δ T is corrected, correction temperature deviation Δ t is obtained；

The horsepower that draws water of draw water horsepower deviation Δ W1 and the second water pump of the first water pump is calculated by correction temperature deviation Δ t Deviation Δ W2；

According to horsepower deviation Δ W1 and Δ W2 that draws water, draw water horsepower W1 and the second water pump of the first water pump of adjustment draw water Horsepower W2.

Embodiment of the method five：

A kind of method for yielding water of thermal insulation cup, includes the following steps：

The hot water temperature T1 in first bottle 10, the second water temperature sensor 72 are obtained by the first water temperature sensor 71 For obtaining the cold water temperature T2 in the second bottle 20, first bottle body bottom is obtained by first hydraulic pressure sensor 81 Pressure of hot water P1, second hydraulic pressure sensor 82 obtains the cold water hydraulic pressure P2 of second bottle body bottom；

By the temperature T2 of preset temperature Ts, the temperature T1 of hot water and cold water, the flow velocity of required hot water and cold water is calculated Ratio Rw；

By preset flow rate Vs, flow rate Rw, flow rate of hot water V1 and chilled water flow velocity V2 are calculated；

By flow rate of hot water V1 and chilled water flow velocity V2, in conjunction with pressure of hot water P1, cold water hydraulic pressure P2, hot water water temperature T 1 and cold water water Warm T2, according under specific water pump structure, flow velocity V and hydraulic pressure P, water temperature T and the correspondence existing for horsepower W that draws water obtain required The first pumping for water pump horsepower W1 and the second pumping for water pump horsepower W2；

According to drawing water, horsepower W1 and W2 starts the first water pump and the second water pump.

In order to enable mixing water temperature T3 is maintained at given value Ts, further, the method for yielding water of thermal insulation cup further include as Lower step：

Mixing water temperature T3 is introduced into the feedback of closed-loop system, temperature deviation Δ T is obtained；

Temperature deviation Δ T is corrected, correction temperature deviation Δ t is obtained；

Horsepower deviation Δ W1 and Δ W2 that draws water is calculated by correction temperature deviation Δ t；

According to drawing water, horsepower deviation Δ W1 and Δ W2 adjusts the first pumping for water pump horsepower W1 and the second pumping for water pump horsepower W2。

In this way, after system starts, mixing water temperature T3 is caused close to preset temperature Ts, but due to the disturbance of external factor T3 is simultaneously not equal to Ts, and there are deviation delta T.Horsepower W1 and W2 that draws water is adjusted according to departure Δ T, to make T3 be maintained at setting Temperature Ts.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (9)

1. a kind of thermal insulation cup, which is characterized in that including：

First bottle and the second bottle, first bottle are vacuum flask, and first bottle has the first water inlet tap and first Pore, second bottle have the second water inlet tap and the second pore；

First water pipe, the second water pipe, outlet pipe and mixing chamber, the mixing chamber are equipped with the first water inlet, the second water inlet And third water outlet, first water pipe one end are stretched to by first pore in first bottle, first water The pipe other end is connected with first water inlet, and second water pipe one end stretches to described second by second pore In bottle, the second water pipe other end is connected with second water inlet, and one end of the outlet pipe goes out with the third The mouth of a river is connected；

First water pump, the second water pump, first water pump are arranged on first water pipe, and second water pump is arranged described On second water pipe；

First lid and the second lid, first lid are installed on first water inlet tap, and second lid is installed in On second water inlet tap；

Control module, the first hydraulic pressure sensor and the second hydraulic pressure sensor, first hydraulic pressure sensor is for obtaining described the The first hydraulic pressure information at one bottle body bottom, second hydraulic pressure sensor are used to obtain second at second bottle body bottom Hydraulic pressure information, the control module are electrically connected with first hydraulic pressure sensor and second hydraulic pressure sensor, the control Molding block is used to obtain water in first bottle according to the first hydraulic pressure information and be believed according to second hydraulic pressure Breath obtains the water in second bottle, and the control module is used to be believed according to the first hydraulic pressure that the first hydraulic pressure sensor detects Breath and the second hydraulic pressure information of the second hydraulic pressure sensor detection adjust the horsepower that draws water of the first water pump, the second water pump.

2. thermal insulation cup according to claim 1, which is characterized in that further include the first water temperature sensor, the second water temperature sensing Device and third water temperature sensor, first water temperature sensor are used to obtain hot water temperature in first bottle, and described the Two water temperature sensors are used to obtain cold water temperature in second bottle, the third water temperature sensor for obtain it is described go out Mixing water temperature in water pipe；The control module is sensed with first water pump, second water pump, first water temperature Device, second water temperature sensor and the third water temperature sensor are electrically connected；The control module is used for according to the heat Coolant-temperature gage, the cold water temperature and the mixing water temperature control draw water horsepower size and/or the control of first water pump A horsepower size of drawing water for second water pump.

3. thermal insulation cup according to claim 2, which is characterized in that further include the first breather valve, the second breather valve, first logical Air valve opening regulating mechanism and the second breather valve opening adjustment mechanism, first breather valve are arranged on first bottle, Second breather valve is arranged on second bottle, the first breather valve opening adjustment mechanism and second breather valve Opening adjustment mechanism is electrically connected with the control module, and the control module is used for big according to the first pumping for water pump horsepower Small, the described second pumping for water pump horsepower size adjusts first breather valve to control the first breather valve opening adjustment mechanism Opening size and control the second breather valve opening adjustment mechanism adjust the second breather valve opening size.

4. thermal insulation cup according to claim 3, which is characterized in that the first breather valve opening adjustment mechanism includes first Drive rod, first breather valve include the first chock plug and the first pipe fitting；First pipe fitting one end stretches to described first bottle In body and equipped with the first cascaded surface being adapted with first chock plug, the first pipe fitting side wall is equipped with and external environment phase The first logical venthole, the first drive rod are movably installed in first pipe fitting, first drive rod and described the One chock plug connects；First drive rod can drive first chock plug to compress first cascaded surface or with described first Cascaded surface separates, and when first chock plug compresses first cascaded surface, first breather valve is closed.

5. thermal insulation cup according to claim 1, which is characterized in that further include third lid and be located at first bottle Head end and second bottle head end outside cover body, the driving mechanism of first water pump is arranged outside first bottle Portion and in the cover body, the driving mechanism of second water pump is arranged outside second bottle and is located at the cover In body, the mixing chamber, first water pipe reach pipeline section, second water pipe outside first bottle and reach institute State the pipeline section outside the second bottle, the outlet pipe is located in the cover body；The cover body is equipped with third pore, the water outlet Pipe is reached by the third pore outside the cover body, and the third cover cap is located at the water outlet tube end.

6. thermal insulation cup according to claim 5, which is characterized in that further include that the first snorkel, the second snorkel, third are logical Tracheae and gas-shaft hood, first snorkel one end is through first bottle and stretching in first bottle, and described the The one snorkel other end is connected to third snorkel one end, and second snorkel one end is through second bottle, simultaneously It stretches in second bottle, the second snorkel other end is connected to third snorkel one end, the gas-shaft hood The other end for blocking the third snorkel.

7. thermal insulation cup according to claim 6, which is characterized in that first snorkel is exposed to first bottle Pipeline section, second snorkel are exposed to the pipeline section of second bottle and the third snorkel is located in the cover body, institute It states cover body and is equipped with the 4th pore, the third snorkel is reached by the 4th pore outside the cover body；The third lid Body is connected with rotor plate, and the rotor plate is rotatably connected with the cover body, and the gas-shaft hood is arranged on the rotor plate, institute It is corresponding to the third snorkel end position to state position of the gas-shaft hood on the rotor plate.

8. thermal insulation cup according to any one of claims 1 to 7, which is characterized in that first water pipe includes bandlet shape First pipeline section, first pipeline section are located at outside first bottle, and first pipeline section enters with the first of the mixing chamber The mouth of a river is connected to；Second water pipe includes the second pipeline section of bandlet shape, and second pipeline section is located at outside second bottle, institute The second pipeline section is stated to be connected to the second water inlet of the mixing chamber；And first pipeline section is located at the mixing chamber wherein Side, second pipeline section are located at the other side of the mixing chamber.

9. a kind of method for yielding water of such as claim 1 to 8 any one of them thermal insulation cup, which is characterized in that include the following steps：

The hot water temperature T1 in first bottle is obtained by the first water temperature sensor, and the second water temperature sensor is for obtaining the Cold water temperature T2 in two bottles obtains the pressure of hot water P1 of first bottle body bottom by first hydraulic pressure sensor, Second hydraulic pressure sensor obtains the cold water hydraulic pressure P2 of second bottle body bottom；

By the temperature T2 of preset temperature Ts, the temperature T1 of hot water and cold water, the flow rate of required hot water and cold water is calculated Rw；

Flow rate of hot water V1 and chilled water flow velocity V2 are obtained by preset flow rate Vs and flow rate Rw；

By flow rate of hot water V1, chilled water flow velocity V2, pressure of hot water P1, cold water hydraulic pressure P2, hot water water temperature T 1 and cold water water temperature T 2, obtain Required the first pumping for water pump horsepower W1 and the second pumping for water pump horsepower W2；

According to drawing water, horsepower W1 and W2 starts the first water pump and the second water pump.