WO2021189371A1 - 一种多功能加热保温容器、充电底座和组合 - Google Patents

一种多功能加热保温容器、充电底座和组合 Download PDF

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Publication number
WO2021189371A1
WO2021189371A1 PCT/CN2020/081468 CN2020081468W WO2021189371A1 WO 2021189371 A1 WO2021189371 A1 WO 2021189371A1 CN 2020081468 W CN2020081468 W CN 2020081468W WO 2021189371 A1 WO2021189371 A1 WO 2021189371A1
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WO
WIPO (PCT)
Prior art keywords
container
base
heat preservation
shell
heating
Prior art date
Application number
PCT/CN2020/081468
Other languages
English (en)
French (fr)
Inventor
吉建刚
Original Assignee
广东吉米有品智能科技有限公司
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Publication date
Application filed by 广东吉米有品智能科技有限公司 filed Critical 广东吉米有品智能科技有限公司
Priority to PCT/CN2020/081468 priority Critical patent/WO2021189371A1/zh
Priority to US17/620,852 priority patent/US20230014122A1/en
Publication of WO2021189371A1 publication Critical patent/WO2021189371A1/zh

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J36/00Parts, details or accessories of cooking-vessels
    • A47J36/24Warming devices
    • A47J36/2444Drinking cups with heating means
    • A47J36/2461Drinking cups with heating means with electrical heating means
    • A47J36/2466Drinking cups with heating means with electrical heating means with integral heating means
    • A47J36/2472Drinking cups with heating means with electrical heating means with integral heating means of the cordless type, i.e. whereby the cup can be plugged into an electrically-powered base element
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J41/00Thermally-insulated vessels, e.g. flasks, jugs, jars
    • A47J41/0038Thermally-insulated vessels, e.g. flasks, jugs, jars comprising additional heating or cooling means, i.e. use of thermal energy in addition to stored material
    • A47J41/005Thermally-insulated vessels, e.g. flasks, jugs, jars comprising additional heating or cooling means, i.e. use of thermal energy in addition to stored material comprising heat or cold producing means, i.e. energy transfer from outside the vessel
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G19/00Table service
    • A47G19/22Drinking vessels or saucers used for table service
    • A47G19/2288Drinking vessels or saucers used for table service with means for keeping liquid cool or hot
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • A47J27/21Water-boiling vessels, e.g. kettles
    • A47J27/21008Water-boiling vessels, e.g. kettles electrically heated
    • A47J27/2105Water-boiling vessels, e.g. kettles electrically heated of the cordless type, i.e. whereby the water vessel can be plugged into an electrically-powered base element
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • A47J27/21Water-boiling vessels, e.g. kettles
    • A47J27/21166Constructional details or accessories
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J41/00Thermally-insulated vessels, e.g. flasks, jugs, jars
    • A47J41/02Vacuum-jacket vessels, e.g. vacuum bottles
    • A47J41/022Constructional details of the elements forming vacuum space

Definitions

  • This application relates to a heating container, in particular to a multifunctional heating and heat preservation container and a charging base and combination.
  • the temperature control cup is a kind of heat preservation container that can heat the water or other tea in the cup to a specified temperature according to the needs of use.
  • the existing temperature control cup is composed of two parts, specifically a cup body for holding water or other tea drinks and a temperature control bottom of a container arranged at the bottom of the cup body for heating the water or other tea drinks in the cup body. Since the cup body of the existing temperature control cup adopts a single-layer steel plate structure, the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating. In order to maintain the heat preservation temperature, the temperature control bottom of the container needs to be continuously heated to maintain a constant temperature. , Which causes the battery used for power supply in the temperature control bottom of the container to consume too fast.
  • This utility model adopts a single-layer steel plate structure for the cup body of the existing temperature control cup in the above-mentioned prior art.
  • the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, resulting in the power of the battery used for power supply in the temperature control bottom of the container The problem of excessive consumption is improved.
  • the technical problem to be solved by the utility model is to provide a multifunctional heating and heat preservation container.
  • a multifunctional heating and heat preservation container includes a container body,
  • the container main body includes a container liner, and a container shell forming a vacuum cavity with the container liner and exposing the bottom of the container liner is provided on the peripheral side of the container liner.
  • the container liner is provided with a container support member that exposes the bottom of the container liner, and a connecting plate is provided between the container shell and the container support member, The container shell, the container support, the connecting plate and the side wall of the container liner are assembled to form the vacuum chamber.
  • one end of the connecting plate 17 close to the container support 16 is bent upward or downward.
  • the container liner is provided with a container support member that exposes the bottom of the container liner, and the end of the container support member away from the container liner is connected to the On the container shell, the container shell, the container support member and the side wall of the container liner are assembled to form the vacuum cavity.
  • a heating sheet is provided on the container liner, the container body is provided with a container temperature control bottom for heating the container body, and the container temperature control bottom It includes a base shell arranged on the container shell, and a power supply device for supplying power to the heating plate is arranged in the base shell, and the power supply device includes a battery arranged in the base shell, and the battery is powered on.
  • the control main board, the charging ring and the heating sheet one side of the charging ring extends to the outside of the base shell, the base shell is provided with a switch for opening and closing the battery, and the base shell is provided with a The temperature adjustment touch position for adjusting the heating temperature.
  • the utility model improves the problem that the spring in the charging base in the above prior art is built into the thimble and the excessive current easily causes the spring to fail and the thimble cannot rebound and reset when the charging base is energized with the outside.
  • the technical problem to be solved is to provide a charging base with a multifunctional heating and heat preservation container.
  • a charging base matched with a multifunctional heating and heat-preserving container includes a base shell, a thimble is arranged in the base shell, an insulating layer is sleeved on the thimble, and a direction is sleeved on the insulating layer.
  • the base shell elastically presses the thimble to move the thimble to extend or retract the elastic part of the base shell, and the thimble is connected with a conductive terminal.
  • the base housing includes an upper base housing and a lower base housing covered on the upper base housing, the lower base housing
  • the body is provided with an annular groove for placing the elastic member, and the thimble is arranged in a mounting hole formed by the annular groove.
  • the insulating layer includes a lower insulating layer and an upper insulating layer arranged on the lower insulating layer, and the conductive terminals are arranged on the lower insulating layer. Between the upper insulating layer and the upper insulating layer, the elastic member is sleeved on the lower insulating layer.
  • the lower insulating layer is provided with a through hole that opens gradually toward the conductive terminal, and the thimble is sleeved in the through hole .
  • the thimble is provided with a limit block for controlling the height of the thimble extending out of the base shell.
  • the utility model adopts a single-layer steel plate structure for the cup body of the above-mentioned existing temperature control cup.
  • the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, which leads to the problem that the power consumption of the battery used for power supply in the temperature control bottom of the container is too fast
  • the spring in the charging base is built into the thimble, and the excessive current easily causes the spring to fail when the charging base is energized with the outside, so that the thimble cannot rebound and reset.
  • the technology to be solved by this utility model is improved
  • the problem is to provide a multifunctional heating and heat preservation container combination.
  • a multifunctional heating and heat preservation container combination includes the above-mentioned multifunctional heating and heat preservation container charging base, and the above-mentioned multifunctional heating and heat preservation container is provided on the charging base of the multifunctional heating and heat preservation container.
  • the utility model provides a multifunctional heating and heat preservation container, which includes a container body, the container body includes a container liner and a container shell, the container shell and the container liner form a vacuum cavity, and the container shell has no package Cover the bottom of the container liner.
  • the vacuum cavity is not thermally conductive, and the temperature decay rate of the water or other liquid contained in the container is reduced, so that the temperature control bottom of the container does not require continuous heating of the container body. To maintain a constant temperature, reduce power consumption, and improve battery life.
  • the cup body of the existing temperature control cup adopts a single-layer steel plate structure, the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, which causes the battery used for power supply in the temperature control bottom of the container to consume too fast.
  • the utility model provides a charging base matched with a multifunctional heating and heat-preserving container, which comprises a base shell and a thimble in the base shell, the thimble is covered with an insulating layer, and the insulating layer is covered with an elastic member.
  • the elastic member does not pass current when the thimble is electrically connected to the external circuit, which overcomes the problem that the spring in the charging base in the prior art is built in the thimble and passes through the charging container and the external circuit. Large currents easily cause the problem of spring loss of elasticity, thereby avoiding the situation that the thimble cannot smoothly extend or retract into the housing due to the loss of elasticity of the spring.
  • Figure 1 is a perspective view of the multifunctional heating and heat preservation container of this application
  • Figure 2 is a cross-sectional view of the multifunctional heating and heat preservation container of this application.
  • Figure 3 is a partial enlarged view of A in Figure 2;
  • Figure 4 is the second embodiment of the container body of the multifunctional heating and heat preservation container of this application.
  • Figure 5 is a partial enlarged view of B in Figure 4.
  • Figure 6 is the third embodiment of the container body of the multifunctional heating and heat preservation container according to the present application.
  • Fig. 7 is a partial enlarged view of C in Fig. 6;
  • Figure 8 is a perspective view of a charging base with a multifunctional heating and heat preservation container according to the application.
  • Figure 9 is an exploded view of the charging base of the application with the multifunctional heating and heat preservation container
  • Figure 10 is a cross-sectional view of the charging base of the application with the multifunctional heating and heat preservation container
  • Fig. 11 is a partial enlarged view at D in Fig. 10.
  • a multifunctional heating and heat-preserving container shown in Figures 1 to 3 includes a container body 30 that includes a container liner 8, and the container liner 8 is arranged in a circumferential direction
  • a container shell 10 forming a vacuum chamber 9 with the container inner liner 8.
  • the container shell 10 does not cover the bottom of the container liner 8.
  • the cavity formed by the container inner liner 8 and the container outer shell 10 is a vacuum cavity 9, which has a heat preservation function because it is isolated from air.
  • the physical heat preservation function of the vacuum chamber 9 is used to reduce the temperature decay rate of the water or other liquid contained in the container liner 8 so that the temperature control bottom of the container used with it does not need to be sustained on the container body. Heating to maintain a constant temperature, thereby reducing the loss of battery power, thereby increasing the battery's use time and improving battery life.
  • the cup body of the existing temperature control cup adopts a single-layer steel plate structure, the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, which causes the battery used for power supply in the temperature control bottom of the container to consume too fast.
  • the vacuum chamber 9 adopts a method of opening a vacuum hole on the container main body 30 to realize the process of drawing out the air in the vacuum chamber 9 so that it has the function of physical heat preservation.
  • the container liner 8 is provided with a container support 16 that is bent and attached to the side wall of the container liner 8.
  • the container support 16 has a cavity that exposes the bottom of the container liner 8, the container support 16 is fixed on the side wall of the container liner 8 by a ring welding process, and the container support 16 is connected to the A connecting plate 17 is provided between the container shell 10, the cross section of the connecting plate 17 is U-shaped, and the two ends of the connecting plate 17 are respectively fixed to the container shell 10 and the container support by a ring welding process. 16 on.
  • the container shell 10, the container support 16, the connecting plate 17 and the side wall of the container inner liner 8 are welded to form the vacuum chamber 9 after a vacuuming process is adopted.
  • the structure of the vacuum chamber 9 formed by welding and assembling the split plates solves the problem of high failure rate when the container shell 10 is directly welded to the container liner 8 to form the vacuum chamber 9, and at the same time avoids The container shell 10 is bent to form a large rounded corner and is not aesthetically pleasing.
  • extending the vacuum chamber 9 to the bottom further expands the size of the vacuum chamber 9 and further enhances the heat preservation effect of the container.
  • Figure 4 shows an embodiment of a multifunctional heating and heat preservation container, which is similar to the above
  • the connecting plate 17 As can be seen from the figure, one end of the connecting plate 17 close to the container support 16 is bent and extended into the vacuum chamber 9, and the connecting plate 17 It is tightly welded with the support 16. It can be seen from the multifunctional heating and heat preservation container shown in Figures 6-7 that, further, the container liner 8 is provided with a container support 16 that is bent and attached to the side plate of the container liner 8.
  • the end of the container support 16 away from the container liner 8 is connected to the container shell 10, and the two ends of the container support part 16 are welded to the container liner 8 and the container shell 10 by an annular welding process
  • the container shell 10, the container support 16 and the side walls of the container liner 8 are welded to form the vacuum chamber 9 after a vacuuming process is adopted.
  • the structure of the vacuum chamber 9 formed by welding and assembling the split plates solves the problem of high failure rate when the container shell 10 is directly welded to the container liner 8 to form the vacuum chamber 9, and at the same time avoids
  • the container shell 10 is bent to form a large rounded corner and is not aesthetically pleasing.
  • extending the vacuum chamber 9 to the bottom further enlarges the size of the vacuum chamber 9 and further enhances the heat preservation effect of the container.
  • the container liner 8 is provided with a heating sheet 211
  • the container body 30 is provided with a heater for heating the container body 30.
  • the temperature control bottom 31 of the container, the temperature control bottom 31 of the container includes a base shell 20 arranged on the container shell 10, and the base shell 20 is provided with a power supply device 21 for supplying power to the heating plate 211.
  • the power supply device 21 includes a battery 212 arranged in the base housing 20. The battery 212 is electrically connected to a control board 213, a charging ring 214, and the heating plate 211, and one side of the charging ring 214 extends to the base.
  • a switch 23 for opening and closing the battery 212 is provided on the base housing 20.
  • the container shell 10 is provided with a bracket for fixing the battery 212, and a heat insulation layer is provided between the battery 212 and the heating plate 211. With this structure, the structure is compact and reasonable.
  • the temperature adjustment touch position 24 is arranged on the side wall of the base shell 20 to avoid the user's accidental touch.
  • a charging base with a multifunctional heating and heat-preserving container shown in Figs. 8-11 includes a base housing 1, and a thimble 2 in contact with the charging ring 214 is provided in the base housing 1. 2 is sleeved with an insulating layer 3, and the insulating layer 3 is sleeved with an elastic pressing the thimble 2 to the outside of the base shell 1 to make the thimble 2 move out or retract into the base shell 1.
  • the elastic member 4 has a conductive terminal 5 connected to the thimble 3.
  • the elastic member 4 is sleeved on the insulating layer 3, and the elastic member 4 elastically presses the thimble 2 toward the outside of the base shell 1, causing the thimble 2 to extend or retract.
  • the thimble 2 is electrically connected to an external circuit through the conductive terminal 5 provided thereon.
  • the elastic member 4 is electrically connected to the external circuit, no current flows through it.
  • the base housing 1 includes an upper base housing 11 and a cover on the upper base housing 11
  • the lower base housing 12 is provided with an annular groove 13 for placing the elastic member 4, and the thimble 2 is arranged in the mounting hole 14 formed by the annular groove 13.
  • the annular groove 13 and the mounting hole 14 formed by the annular groove 13 serve to fix the elastic member 4 and the thimble 2, making the structure more stable and reliable.
  • the insulating layer 3 includes a lower insulating layer 31 and an upper insulating layer disposed on the lower insulating layer 31 32.
  • the conductive terminal 5 is arranged between the lower insulating layer 31 and the upper insulating layer 32, and the elastic member 4 is sleeved on the lower insulating layer 31.
  • the elastic member 4 is not in contact with current, and the conductive terminal 5 is provided on the lower insulating layer 31 and the insulating layer. Between 32, the conductive terminal 5 is prevented from contacting other accessories, and the safety is enhanced.
  • the insulating layer 3 may be high temperature resistant silica gel.
  • the lower insulating layer 31 is provided with a through hole 33 whose opening gradually increases toward the conductive terminal 5 .
  • the thimble 2 is sleeved in the through hole 33.
  • the conductive terminal 5 and the thimble 2 are fixed by welding, and the through hole 33 reserves sufficient solder positions. With this structure, the stability of the conductive terminal 5 is enhanced, and the movement of the conductive terminal 5 is avoided.
  • the thimble 2 is provided with a height for controlling the height of the thimble 2 protruding out of the base shell 1
  • the limit block 6. The figure shows the specific structure of the limiting block 6. The limiting block 6 extends outward on the peripheral side of the thimble 2 so that the thimble 2 cannot be completely separated from the housing 1, while The protruding height of the thimble 2 is controlled by adjusting the specific position of the limiting block 6. With this structure, the stability and safety of the structure are enhanced.
  • a multifunctional heating and heat preservation container combination includes a lid, the cover is closed on the above-mentioned multifunctional heating and heat preservation container, and the multifunctional heating and heat preservation container is placed on the charging base that cooperates with the multifunctional heating and heat preservation container.
  • This combination overcomes the fact that the cup body of the existing temperature control cup adopts a single-layer steel plate structure, and the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, which causes the battery used for power supply in the temperature control bottom of the container to consume too fast
  • the problem is that the spring in the charging base is built into the thimble and the excessive current will easily cause the spring to fail and the thimble cannot rebound and reset when the charging base is energized with the outside.
  • the utility model provides a multifunctional heating and heat preservation container, which includes a container body, the container body includes a container liner and a container shell, the container shell and the container liner form a vacuum cavity, and the container shell has no package Cover the bottom of the container liner.
  • the vacuum cavity is not thermally conductive, and the temperature decay rate of the water or other liquid contained in the container is reduced, so that the temperature control bottom of the container does not require continuous heating of the container body. To maintain a constant temperature, reduce power consumption, and improve battery life.
  • the cup body of the existing temperature control cup adopts a single-layer steel plate structure, the cup body dissipates heat quickly, and the heat preservation completely relies on electric heating, which causes the battery used for power supply in the temperature control bottom of the container to consume too fast.
  • the utility model provides a charging base matched with a multifunctional heating and heat preservation container.
  • the charging base includes a base shell and a thimble in the base shell.
  • the thimble is covered with an insulating layer, and the insulating layer is covered with an elastic member.
  • the elastic member elastically presses the thimble to the outside of the base shell, so that the thimble extends or retracts into the base shell, and the thimble is electrically connected to an external circuit through a conductive terminal provided on the thimble.
  • the elastic member is electrically connected to the external circuit, no current flows through it.
  • This structure overcomes the problem that the spring in the charging base in the prior art is built into the thimble and is energized between the charging base and the outside. Excessive current in the process can easily cause the spring failure and the thimble cannot rebound and reset, so as to avoid the situation that the thimble cannot be smoothly extended or retracted into the housing due to the loss of elasticity
  • first, second, etc. are used in this application to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish the same type of information from each other.
  • first information may also be referred to as “second” information
  • second information may also be referred to as “first” information.
  • center “upper”, “lower”, “left”, “right”, “vertical”, “horizontal”, “inner”, “outer”, etc. indicate the orientation or positional relationship based on the drawings.

Abstract

一种多功能加热保温容器及其充电底座,该多功能加热保温容器包括容器主体(30),容器主体(30)包括容器内胆(8),容器内胆(8)周侧上设有与容器内胆(8)形成真空腔(9)且使容器内胆(8)底部外露的容器外壳(10)。该充电底座,包括底座壳体(1),底座壳体(1)内设有与充电环(214)接触的顶针(2),顶针(2)上套装有绝缘层(3),绝缘层(3)上套接有向底座壳体(1)外弹性顶压顶针(2)使顶针(2)移动伸出或缩进底座壳体(1)的弹性件(4),顶针(2)上连接有导电端子(5)。克服了现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题和现有的充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题。

Description

一种多功能加热保温容器、充电底座和组合 技术领域
本申请涉及加热容器,尤其涉及一种多功能加热保温容器和充电底座和组合。
背景技术
控温杯子是一种可以根据使用需要对盛放在杯子里的水或者其他茶饮加热到指定温度的保温容器。现有的控温杯子由两部分组成,具体为用于盛放水或者其他茶饮的杯体和设置在杯体底部用于对杯体内的水或者其他茶饮进行加热的容器控温底部。由于现有的控温杯子的杯体采用的是单层钢板的结构,杯体散热快,保温完全依赖于电能加热,为了维持保温温度,容器控温底部需要不停地加热以维持温度的恒定,从而导致容器控温底部内用于供电的电池的电量消耗过快。
发明概述
技术问题
本实用新型针对上述现有技术存在的现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题做出改进,本实用新型要解决的技术问题是提供一种多功能加热保温容器。
问题的解决方案
技术解决方案
为解决上述技术问题,一种多功能加热保温容器,包括容器主体,
所述容器主体包括容器内胆,所述容器内胆周侧上设有与所述容器内胆形成真空腔且使所述容器内胆底部外露的容器外壳。
作为上述一种多功能加热保温容器的一种改进,所述容器内胆上设有使容器内胆底部外露的容器支撑件,所述容器外壳与所述容器支撑件之间设有连接板,所述容器外壳、所述容器支撑件、所述连接板和所述容器内胆侧壁拼装形成所述真空腔。
作为上述一种多功能加热保温容器的一种改进,所述连接板17靠近所述容器支撑件16的一端向上弯折或向下弯折。
作为上述一种多功能加热保温容器的一种改进,所述容器内胆上设有使容器内胆底部外露的容器支撑件,所述容器支撑件远离所述容器内胆的一端连接在所述容器外壳上,所述容器外壳、所述容器支撑件和所述容器内胆侧壁拼装形成所述真空腔。
作为上述一种多功能加热保温容器的一种改进,所述容器内胆上设有加热片,所述容器主体上设有用于加热所述容器主体的容器控温底部,所述容器控温底部包括设置在所述容器外壳上的底座外壳,所述底座外壳内设有用于为所述加热片供电的供电装置,所述供电装置包括设置在所述底座外壳内的电池,所述电池上电连接有控制主板、充电环以及所述加热片,所述充电环一侧延伸至所述底座外壳外侧,所述底座外壳上设有用于启闭所述电池的开关,所述底座外壳上设有用于调节加热温度的温度调节触摸位。
本实用新型针对上述现有技术存在的充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题做出改进,本实用新型要解决的技术问题是提供一配合多功能加热保温容器的充电底座。
为解决上述技术问题,一种配合多功能加热保温容器的充电底座,包括底座壳体,所述底座壳体内设有顶针,所述顶针上套装有绝缘层,所述绝缘层上套接有向所述底座壳体外弹性顶压所述顶针使所述顶针移动伸出或缩进所述底座壳体的弹性件,所述顶针上连接有导电端子。
作为上述一种配合多功能加热保温容器的充电底座的一种改进,所述底座壳体包括上底座壳体和盖合在所述上底座壳体上的下底座壳体,所述下底座壳体上设有用于放置所述弹性件的环形槽,所述顶针设于所述环形槽形成的安装孔内。
作为上述一种配合多功能加热保温容器的充电底座的一种改进,所述绝缘层包括下绝缘层和设置在所述下绝缘层上的上绝缘层,所述导电端子设置在所述下绝缘层和上绝缘层之间,所述弹性件套接在所述下绝缘层上。
作为上述一种配合多功能加热保温容器的充电底座的一种改进,所述下绝缘层上设有朝所述导电端子方向开口逐渐增大的通孔,所述顶针套装在所述通孔内。
作为上述一种配合多功能加热保温容器的充电底座的一种改进,所述顶针上设有用于控制所述顶针伸出所述底座壳体外的高度的限位块。
本实用新型针对上述现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题和现有技术存在的充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题做出改进,本实用新型要解决的技术问题是提供一种多功能加热保温容器组合。
一种多功能加热保温容器组合,包括上述多功能加热保温容器充电底座,所述多功能加热保温容器充电底座上设有上述多功能加热保温容器。
与现有技术相比,本实用新型具有如下优点:
本实用新型提供了一种多功能加热保温容器,包括容器主体,所述容器主体包括容器内胆和容器外壳,所述容器外壳和所述容器内胆形成真空腔,且所述容器外壳没有包覆所述容器内胆的底部。采用这种结构,利用真空腔不导热的物理特性,降低盛放在所述容器内胆内的水或者其他液体的温度衰减速度,使与其配合使用的容器控温底部不需要对容器主体持续加热以维持温度的恒定,降低电量的消耗,提高电池的续航能力。克服了现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题。
本实用新型提供了一种配合多功能加热保温容器的充电底座,包括底座壳体和所述底座壳体内的顶针,所述顶针上套装有绝缘层,所述绝缘层上套接有弹性件。采用这种结构,所述弹性件在所述顶针与外部电路电连接的过程中没有电流通过,克服了现有技术中充电底座中的弹簧内置在顶针内并在充电容器与外部通电过程中过大电流容易导致弹簧失去弹性的问题,从而避免由于弹簧失去弹性顶针无法顺利伸出或缩入所述壳体的情况出现。
发明的有益效果
对附图的简要说明
附图说明
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍。
图1为本申请多功能加热保温容器的立体图;
图2为本申请多功能加热保温容器的剖视图;
图3为图2中A处的局部放大图;
图4为本申请多功能加热保温容器的容器主体的实施例二;
图5为图4中B处的局部放大图;
图6为本申请多功能加热保温容器的容器主体的实施例三;
图7为图6中C处的局部放大图;
图8为本申请配合多功能加热保温容器的充电底座的立体图;
图9为本申请配合多功能加热保温容器的充电底座的爆炸图;
图10为本申请配合多功能加热保温容器的充电底座的剖视图;
图11为图10中D处的局部放大图。
发明实施例
本发明的实施方式
为了使本申请所解决的技术问题、技术方案及有益效果更加清楚明白,以下结合附图及实施例,对本申请进行进一步详细说明。应当理解,此处所描述的具体实施例仅用以解释本申请,并不用于限定本申请。
由图1-图3出示的一种多功能加热保温容器,包括容器主体30,所述容器主体30包括容器内胆8,所述容器内胆8的周测方向上设
有与所述容器内胆8形成真空腔9的容器外壳10。所述容器外壳10不包覆所述容器内胆8的底部。所述容器内胆8与所述容器外壳10形成的腔体为真空腔9,其因隔绝了空气而具有保温的功能。采用这种结构,利用真空腔9的物理保温功能,降低盛放在所述容器内胆8内的水或者其他液体的温度衰减速度,使与其配合使用的容器控温底部不需要对容器主体持续加热以维持温度的恒定,从而降低了电池电量的损耗,进而提高电池的使用时长,提高续航能力。克服 了现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题。
所述真空腔9采用在所述容器主体30上开设真空孔的方式实现将其内空气抽出的工艺,使其具有物理保温的作用。
由图1-图3出示的一种多功能加热保温容器可知,进一步地,所述容器内胆8上设有折弯贴合在所述容器内胆8侧壁上的容器支撑件16,所述容器支撑件16具有使所述容器内胆8底部外露的空腔,所述容器支撑件16通过环形焊接的工艺固定在所述容器内胆8侧壁上,所述容器支撑件16与所述容器外壳10之间设有连接板17,所述连接板17的横截面呈U型,所述连接板17两端通过环形焊接的工艺分别固定在所述容器外壳10和所述容器支撑件16上。由图可知,所述容器外壳10、所述容器支撑件16、所述连接板17和所述容器内胆8侧壁焊接并采用抽真空工艺后形成所述真空腔9。利用分体式的板件焊接拼装形成所述真空腔9的结构,解决了所述容器外壳10直接焊接在所述容器内胆8上形成所述真空腔9时不良率高的问题,同时避免了所述容器外壳10折弯形成大圆角不美观的问题。同时,使所述真空腔9延伸至底部,进一步地扩大所述真空腔9的大小,进一步地增强了容器的保温效果。
图4中出示了一种多功能加热保温容器的一种实施例,其与上述
实施例中的唯一区别点是所述连接板17的形状,由图可知,所述连接板17靠近所述容器支撑件16的一端折弯伸入所述真空腔9内,所述连接板17与所述支撑件16紧配焊接。由图6-7出示的一种多功能加热保温容器可知,进一步地,所述容器内胆8上设有折弯贴合在所述容器内胆8侧板上的容器支撑件16,所述容器支撑件16远离所述容器内胆8的一端连接在所述容器外壳10上,所述容器支撑件16的两端通过环形焊接工艺焊接在所述容器内胆8和所述容器外壳10上,所述容器外壳10、所述容器支撑件16和所述容器内胆8侧壁焊接并采用抽真空工艺后形成所述真空腔9。利用分体式的板件焊接拼装形成所述真空腔9的结构,解决了所述容器外壳10直接焊接在所述容器内胆8上形成所述真空腔9时不良率高的问题,同时避免了所述容器外壳10折弯形成大圆角不美观的问题。同时,使所述真空腔9延伸至底部,进一步地扩大所述真空腔9的大 小,进一步地增强了容器的保温效果。
由图1-2所示的一种多功能加热保温容器可知道,进一步地,所述容器内胆8上设有加热片211,所述容器主体30上设有用于加热所述容器主体30的容器控温底部31,所述容器控温底部31包括设置在所述容器外壳10上的底座外壳20,所述底座外壳20内设有用于为所述加热片211供电的供电装置21,所述供电装置21包括设置在所述底座外壳20内的电池212,所述电池212上电连接有控制主板213、充电环214以及所述加热片211,所述充电环214一侧延伸至所述底座外壳20外侧,所述底座外壳20上设有用于启闭所述电池212的开关23。所述容器外壳10内设有用于固定所述电池212的支架,所述电池212与所述加热片211之间设有隔热层。采用这种结构,结构紧凑合理。
由图1-图2所示的一种多功能加热保温容器可知道,进一步地,所述底座外壳20侧壁上设有用于调节温度的温度调节触摸位24。使用者通过所述温度调节触摸位24可以直观地调节需要的温度,同时,所述温度调节触摸位24设置在所述底座外壳20的侧壁上可避免使用者的误碰。
由图8-图11所示的一种配合多功能加热保温容器的充电底座,包括底座壳体1,所述底座壳体1内设有与所述充电环214接触的顶针2,所述顶针2上套装有绝缘层3,所述绝缘层3上套接有向所述底座壳体1外弹性顶压所述顶针2使所述顶针2移动伸出或缩进所述底座壳体1的弹性件4,所述顶针3上连接有导电端子5。由图可知,所述绝缘层3上套接有所述弹性件4,所述弹性件4向所述底座壳体1外弹性顶压所述顶针2,使所述顶针2伸出或缩进所述底座壳体1,所述顶针2通过设置在其上的所述导电端子5与外部电路电连接。所述弹性件4在所述顶针2与外部电路电连接的过程中没有电流通过其内,采用这种结构,克服了现有技术中存在的充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题,从而避免由于弹簧失去弹性后顶针无法顺利伸出或缩入所述底座壳体1的情况出现。
由图8-图11所示的一种配合多功能加热保温容器的充电底座可知道,进一步的,所述底座壳体1包括上底座壳体11和盖合在所述上底座壳体11上的下底座壳体12,所述下底座壳体12上设有用于放置所述弹性件4的环形槽13,所 述顶针2设于所述环形槽13形成的安装孔14内。采用这种结构,所述环形槽13和所述环形槽13形成的安装孔14起到了固定所述弹性件4和所述顶针2的作用,使结构更加稳定可靠。
由图8-图11所示的一种配合多功能加热保温容器的充电底座可知道,进一步的,所述绝缘层3包括下绝缘层31和设置在所述下绝缘层31上的上绝缘层32,所述导电端子5设置在所述下绝缘层31和上绝缘层32之间,所述弹性件4套接在所述下绝缘层31上。采用这种结构,实现了所述顶针2与外部电路电连接的同时,实现了所述弹性件4不与电流接触的目的,且所述导电端子5设于所述下绝缘层31和绝缘层32之间,避免了所述导电端子5与其他配件接触,增强了安全性,所述绝缘层3可以是耐高温的硅胶。
由图8-图11所示的一种配合多功能加热保温容器的充电底座可知道,进一步的,所述下绝缘层31上设有朝所述导电端子5方向开口逐渐增大的通孔33,所述顶针2套装在所述通孔33内。所述导电端子5与所述顶针2通过焊接固定,所述通孔33预留了足够的焊锡位置。通过这种结构,增强了所述导电端子5的稳定性,避免所述导电端子5的移动。
由图8-图11所示的一种配合多功能加热保温容器的充电底座可知道,进一步的,所述顶针2上设有用于控制所述顶针2伸出所述底座壳体1外的高度的限位块6。图中示出了所述限位块6的具体结构,所述限位块6在所述顶针2的周侧向外延伸以使所述顶针2不能完全脱离所述壳体1的同时,可以通过调节所述限位块6的具体位置而控制所述顶针2的伸出高度,采用这种结构,增强了结构的稳定性和安全性。
一种多功能加热保温容器组合,包括盖子,所述盖子盖合在上述的多功能加热保温容器上,所述的多功能加热保温容器放置在上述的配合多功能加热保温容器的充电底座上。采用这种组合,克服了现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题和充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题。
本实用新型方案一种多功能加热保温容器的工作原理如下:
本实用新型提供了一种多功能加热保温容器,包括容器主体,所述容器主体包括容器内胆和容器外壳,所述容器外壳和所述容器内胆形成真空腔,且所述容器外壳没有包覆所述容器内胆的底部。采用这种结构,利用真空腔不导热的物理特性,降低盛放在所述容器内胆内的水或者其他液体的温度衰减速度,使与其配合使用的容器控温底部不需要对容器主体持续加热以维持温度的恒定,降低电量的消耗,提高电池的续航能力。克服了现有的控温杯子的杯体采用单层钢板结构,杯体散热快,保温完全依赖于电能加热,导致容器控温底部内用于供电的电池的电量消耗过快的问题。
本实用新型提供了一种配合多功能加热保温容器的充电底座,包括底座壳体和所述底座壳体内的顶针,所述顶针上套装有绝缘层,所述绝缘层上套接有弹性件,所述弹性件向所述底座壳体外弹性顶压所述顶针,使所述顶针伸出或缩进所述底座壳体,所述顶针通过设置在其上的导电端子与外部电路电连接。所述弹性件在所述顶针与外部电路电连接的过程中没有电流通过其内,采用这种结构,克服了现有技术存在的充电底座中的弹簧内置在顶针内并在充电底座与外部通电过程中过大电流容易导致弹簧失效使顶针不能回弹复位的问题,从而避免由于弹簧失去弹性后顶针无法顺利伸出或缩入所述壳体的情况出现。
应当理解的是,本申请中采用术语“第一”、“第二”等来描述各种信息,但这些信息不应限于这些术语,这些术语仅用来将同一类型的信息彼此区分开。例如,在不脱离本申请范围的情况下,“第一”信息也可以被称为“第二”信息,类似的,“第二”信息也可以被称为“第一”信息。此外,术语“中心”、“上”、“下”、“左”、“右”、“竖直”、“水平”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本申请和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本申请的限制。
如上所述是结合具体内容提供的一种或多种实施方式,并不认定本申请的具体实施只局限于这些说明。凡与本申请的方法、结构等近似、雷同,或是对于本申请构思前提下做出若干技术推演,或替换都应当视为本申请的保护范围。

Claims (10)

  1. 一种多功能加热保温容器,包括容器主体(30),其特征在于,所述容器主体(30)包括容器内胆(8),所述容器内胆(8)周侧上设有与所述容器内胆(8)形成真空腔(9)且使所述容器内胆(8)底部外露的容器外壳(10)。
  2. 根据权利要求1所述的多功能加热保温容器,其特征在于,所述容器内胆(8)上设有使容器内胆(8)底部外露的容器支撑件(16),所述容器外壳(10)与所述容器支撑件(16)之间设有连接板(17),所述容器外壳(10)、所述容器支撑件(16)、所述连接板(17)和所述容器内胆(8)侧壁拼装形成所述真空腔(9)。
  3. 据权利要求2所述的多功能加热保温容器,其特征在于,所述连接板(17)靠近所述容器支撑件(16)的一端向上弯折或向下弯折。
  4. 根据权利要求1所述的多功能加热保温容器,其特征在于,所述容器内胆(8)上设有使容器内胆(8)底部外露的容器支撑件(16),所述容器支撑件(16)远离所述容器内胆(8)的一端连接在所述容器外壳(10)上,所述容器外壳(10)、所述容器支撑件(16)和所述容器内胆(8)侧壁拼装形成所述真空腔(9)。
  5. 根据权利要求1所述的多功能加热保温容器,其特征在于,所述容器内胆(8)上设有加热片(211),所述容器主体(30)上设有用于加热所述容器主体(30)的容器控温底部(31),所述容器控温底部(31)包括设置在所述容器外壳(10)上的底座外壳(20),所述底座外壳(20)内设有用于为所述加热片(211)供电的供电装置(21),所述供电装置(21)包括设置在所述底座外壳(20)内的电池(212),所述电池(212)上电连接有控制主板(213)、充电环(214)以及所述加热片(211),所述充电环(214)一侧延伸至所述底座外壳(20)外侧,所述底座外壳(20)上设有用于启闭所述电池(212)的开关(23),所述底座外壳(20)上设有用于调节加热温度的温度调节触摸位(24)。
  6. 一种配合多功能加热保温容器的充电底座,其特征在于,包括底座壳体(1),所述底座壳体(1)内设有与所述充电环(214)接触的顶针(2),所述顶针(2)上套装有绝缘层(3),所述绝缘层(3)上套接有向所述底座壳体(1)外弹性顶压所述顶针(2)使所述顶针(2)移动伸出或缩进所述底座壳体(1)的弹性件(4),所述顶针(2)上连接有导电端子(5)。
  7. 根据权利要求6所述的配合多功能加热保温容器的充电底座,其特征在于,所述底座壳体(1)包括上底座壳体(11)和盖合在所述上底座壳体(11)上的下底座壳体(12),所述下底座壳体(12)上设有用于放置所述弹性件(4)的环形槽(13),所述顶针(2)设于所述环形槽(13)形成的安装孔(14)内。
  8. 根据权利要求7所述的配合多功能加热保温容器的充电底座,其特征在于,所述绝缘层(3)包括下绝缘层(31)和设置在所述下绝缘层(31)上的上绝缘层(32),所述导电端子(5)设置在所述下绝缘层(31)和上绝缘层(32)之间,所述弹性件(4)套接在所述下绝缘层(31)上。
  9. 根据权利要求8所述的配合多功能加热保温容器的充电底座,其特征在于,所述下绝缘层(31)上设有朝所述导电端子(5)方向开口逐渐增大的通孔(33),所述顶针(2)套装在所述通孔(33)内,所述顶针(2)上设有用于控制所述顶针(2)伸出所述底座壳体(1)外的高度的限位块(6)。
  10. 一种多功能加热保温容器组合,其特征在于,包括如权利要求6-9中任一项多功能加热保温容器充电底座,所述多功能加热保温容器充电底座上设有如权利要求1-5中任一项多功能加热保温容器。
PCT/CN2020/081468 2020-03-26 2020-03-26 一种多功能加热保温容器、充电底座和组合 WO2021189371A1 (zh)

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