[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP4583843B2 - Method for manufacturing cold insulation body and cold insulation apparatus - Google Patents

Method for manufacturing cold insulation body and cold insulation apparatus Download PDF

Info

Publication number
JP4583843B2
JP4583843B2 JP2004253246A JP2004253246A JP4583843B2 JP 4583843 B2 JP4583843 B2 JP 4583843B2 JP 2004253246 A JP2004253246 A JP 2004253246A JP 2004253246 A JP2004253246 A JP 2004253246A JP 4583843 B2 JP4583843 B2 JP 4583843B2
Authority
JP
Japan
Prior art keywords
bottom member
manufacturing
exhaust hole
cold
heating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP2004253246A
Other languages
Japanese (ja)
Other versions
JP2006068152A (en
Inventor
忠弘 真保
Original Assignee
株式会社セブン・セブン
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社セブン・セブン filed Critical 株式会社セブン・セブン
Priority to JP2004253246A priority Critical patent/JP4583843B2/en
Publication of JP2006068152A publication Critical patent/JP2006068152A/en
Application granted granted Critical
Publication of JP4583843B2 publication Critical patent/JP4583843B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Cookers (AREA)
  • Rigid Containers With Two Or More Constituent Elements (AREA)
  • Packages (AREA)
  • Thermally Insulated Containers For Foods (AREA)

Description

本発明は、保冷温体の製造方法及び保冷温装置に関するものである。   The present invention relates to a method for manufacturing a cold insulator and a cold insulator.

従来から、断熱性を有する有底筒体の保冷温容器が提案されている。この保冷温容器は、内筒体と外筒体とから成り、この内筒体の上端部と外筒体の上端部及び内筒体の下端部と外筒体の下端部を夫々接合して該内筒体と外筒体間に空隙部を有する二重構造体を形成し、続いて、真空加熱炉内にて前記二重構造体に設けた真空排気用の排気孔から排気して空隙部を真空にすると共に該排気孔を封止して真空二重構造体の胴部材を形成し、この胴部材の下部に底部材を設けて形成される。   2. Description of the Related Art Conventionally, a insulated cold container with a bottomed cylindrical body having heat insulation properties has been proposed. This cold insulation container is composed of an inner cylinder and an outer cylinder, and joins the upper end of the inner cylinder, the upper end of the outer cylinder, the lower end of the inner cylinder and the lower end of the outer cylinder, respectively. A double structure having a gap portion is formed between the inner cylinder body and the outer cylinder body, and then exhausted from an exhaust hole for vacuum exhaust provided in the double structure body in a vacuum heating furnace. The body is evacuated and the exhaust hole is sealed to form a body member of a vacuum double structure, and a bottom member is provided below the body member.

従って、先ず、胴部材を形成し、次いで底部材を設けているため、それだけ製造効率が悪い。特に、前記胴部材と前記底部材とが異なる金属部材で形成されていた場合、アルゴン溶接などの通常の溶接では両者を良好に接合できない場合があり、この点においても厄介である。   Therefore, since the body member is first formed and then the bottom member is provided, the manufacturing efficiency is reduced accordingly. In particular, when the body member and the bottom member are formed of different metal members, normal welding such as argon welding may not be able to join the two well, which is also troublesome.

本発明は、上記問題点に鑑みて完成したもので、製造効率が良好であり、よって、量産性に秀れた画期的な保冷温体の製造方法を提供し、また、これによって製造される保冷温体を採用し量産性に秀れた実用的な保冷温装置を提供するものである。   The present invention has been completed in view of the above-mentioned problems, has a good production efficiency, and therefore provides an innovative method for producing a cold insulator having excellent mass productivity. It provides a practical cold insulation device that employs a cold insulation body and is excellent in mass productivity.

添付図面を参照して本発明の要旨を説明する。   The gist of the present invention will be described with reference to the accompanying drawings.

金属製の内筒体1aと金属製の外筒体1bとから成り該内筒体1aと該外筒体1bとの間の空隙部6が真空断熱層である胴部材1と、この胴部材1の下部開口部1dを閉塞する底部材2とで構成される保冷温体の製造方法であって、前記内筒体1aの下部には下端程拡開するテーパ部13が形成されると共に、真空排気用の排気孔12が設けられており、一方、前記底部材2の周面には前記テーパ部13と合致するテーパ部14が設けられており、また、前記底部材2の前記排気孔12の近傍位置には前記テーパ部13とで溶融した後記ろう材11が充填される切欠部15が設けられており、前記排気孔12の近傍位置において前記胴部材1の前記下部開口部1dを前記底部材2で閉塞すると共に、前記切欠部15にろう材11を配設し、続いて、真空加熱により前記胴部材1内から前記排気孔12を介して排気すると共に、前記ろう材11を溶融し該ろう材11により前記胴部材1と前記底部材2との接合及び前記排気孔12の封止をすることを特徴とする保冷温体の製造方法に係るものである。 A body member 1 comprising a metal inner cylinder 1a and a metal outer cylinder 1b, in which a gap 6 between the inner cylinder 1a and the outer cylinder 1b is a vacuum heat insulating layer, and the body A method for manufacturing a cold insulator comprising a bottom member 2 that closes a lower opening 1d of a member 1, wherein a taper portion 13 that expands toward the lower end is formed at the lower portion of the inner cylinder 1a, and a vacuum is formed. An exhaust hole 12 for exhaust is provided. On the other hand, a tapered portion 14 that matches the tapered portion 13 is provided on the peripheral surface of the bottom member 2, and the exhaust hole 12 of the bottom member 2 is provided. below the brazing material 11 has notch 15 is provided to be filled, the lower opening portion 1d of the body member 1 Te vicinity odor of the exhaust hole 12 in the vicinity melted at said taper portion 13 of the Is closed by the bottom member 2, and a brazing material 11 is disposed in the notch 15, and the body is then heated by vacuum heating. 1 is exhausted through the exhaust hole 12 from the inside, and the brazing material 11 is melted to join the body member 1 and the bottom member 2 and to seal the exhaust hole 12 by the brazing material 11. The present invention relates to a manufacturing method of a featured cold insulator.

また、請求項1記載の保冷温体の製造方法において、前記排気孔12は、前記胴部材1の前記テーパ部13における下端近傍に設けられ、前記切欠部15は、前記底部材2の下部に設けられ且つ前記底部材2で前記胴部材1の前記下部開口部1dを閉塞した際、前記排気孔12が露出する構成であることを特徴とする保冷温体の製造方法に係るものである。 Further, in the method for manufacturing a cold insulation body according to claim 1, the exhaust hole 12 is provided in the vicinity of the lower end of the tapered portion 13 of the body member 1, and the cutout portion 15 is formed at a lower portion of the bottom member 2. When the bottom member 2 is provided and the lower opening 1d of the body member 1 is closed, the exhaust hole 12 is exposed .

また、請求項1,2いずれか1項に記載の保冷温体の製造方法において、前記胴部材1は、前記内筒体1aの上部及び前記外筒体1bの上部並びに、及び前記内筒体1aの下部及び前記外筒体1bの下部を夫々接合して成るものであることを特徴とする保冷温体の製造方法に係るものである。   Further, in the method for manufacturing a cold insulation body according to any one of claims 1 and 2, the body member 1 includes an upper part of the inner cylindrical body 1a, an upper part of the outer cylindrical body 1b, and the inner cylindrical body. The lower part of 1a and the lower part of the said outer cylinder 1b are joined, respectively, It concerns on the manufacturing method of the cool heat insulation body characterized by the above-mentioned.

また、請求項1〜3いずれか1項に記載の保冷温体の製造方法において、前記切欠部15は環状に形成されていることを特徴とする保冷温体の製造方法に係るものである。 The method for manufacturing a cold insulator according to any one of claims 1 to 3 , wherein the cutout portion 15 is formed in an annular shape .

また、請求項1〜3いずれか1項に記載の保冷温体の製造方法において、前記ろう材11は、前記胴部材1の下部開口部1dを前記底部材2で閉塞した状態のまま上下逆さ向きにして配設することを特徴とする保冷温体の製造方法に係るものである。 Further, in the method for manufacturing a cold insulation body according to any one of claims 1 to 3, the brazing material 11 is turned upside down while the lower opening 1d of the body member 1 is closed by the bottom member 2. The present invention relates to a method for manufacturing a cold insulator that is arranged in a direction .

また、請求項1〜5いずれか1項に記載の保冷温体の製造方法により製造された保冷温体の前記底部材2の外側面に該底部材2を加熱する加熱部,冷却する冷却部又は加熱若しくは冷却する加熱冷却部4が設けられていることを特徴とする保冷温装置に係るものである。   Moreover, the heating part which heats this bottom member 2 to the outer surface of the said bottom member 2 of the cold insulation warm body manufactured by the manufacturing method of the cold insulation warm body of any one of Claims 1-5, the cooling part which cools Or the heating and cooling part 4 which heats or cools is provided, It concerns on the cold insulation temperature apparatus characterized by the above-mentioned.

また、請求項6記載の保冷温装置において、前記加熱冷却部4は、ペルチェ素子5aに直流電流が流されることで発熱若しくは吸熱する熱源部5と、この熱源部5に直流電流を流す電源部7と、この直流電流の方向を切り替える切替部8とが設けられたものであることを特徴とする保冷温装置に係るものである。   Further, in the cold insulation temperature apparatus according to claim 6, the heating and cooling unit 4 includes a heat source unit 5 that generates heat or absorbs heat when a direct current flows through the Peltier element 5a, and a power source unit that supplies direct current to the heat source unit 5. 7 and a switching unit 8 for switching the direction of the direct current are provided.

また、請求項6,7いずれか1項に記載の保冷温装置において、前記底部材2は熱伝導率が高い部材で構成されていることを特徴とする保冷温装置に係るものである。   Further, in the cold insulation temperature apparatus according to any one of claims 6 and 7, the bottom member 2 is constituted by a member having high thermal conductivity.

本発明は、胴部材と底部材との接合と、胴部材の空隙部を真空断熱層とすることとが同時に行えるから、それだけ製造効率が良く、よって、量産性に秀れた保冷温体の製造方法となる。   In the present invention, since the joining of the body member and the bottom member and the air gap of the body member can be made into a vacuum heat insulating layer at the same time, the production efficiency is improved accordingly, and therefore, the cold insulator is excellent in mass productivity. It becomes a manufacturing method.

また、請求項6記載の発明によれば、秀れた保冷温効果を発揮することは勿論、例えば、保冷温体に収納したペットボトル内の飲料を加熱若しくは冷却したりすることができるから、不適温になってしまった飲料を再び最適な温度に再加熱若しくは再冷却などすることが可能な量産性に秀れた保冷温装置となる。   In addition, according to the invention described in claim 6, of course, it is possible to heat or cool a beverage in a plastic bottle stored in a cold insulation body, for example, to exhibit an excellent cold insulation temperature effect. It becomes a cold insulation temperature apparatus excellent in mass productivity that can reheat or recool a beverage that has become unsuitable temperature to an optimum temperature again.

好適と考える本発明の実施形態を、図面に基づいて本発明の作用を示して簡単に説明する。   An embodiment of the present invention which is considered to be suitable will be briefly described with reference to the drawings showing the operation of the present invention.

胴部材1に設けられた真空排気用の排気孔12の近傍位置において該胴部材1の下部開口部1dを底部材2で閉塞し、該底部材2と該胴部材1の連設部若しくはその近傍にろう材11を配し、この状態で例えば真空加熱炉で真空加熱する。   A lower opening 1d of the body member 1 is closed with a bottom member 2 at a position in the vicinity of an exhaust hole 12 for evacuation provided in the body member 1, and a connecting portion of the bottom member 2 and the body member 1 or its The brazing material 11 is disposed in the vicinity, and in this state, for example, vacuum heating is performed in a vacuum heating furnace.

真空加熱炉で前記ろう材11の溶融温度以下までの加熱により、前記排気孔12を介して胴部材1の空隙部6内が排気され、加熱が前記ろう材11の溶融温度に達すると該ろう材11が溶融し、該ろう材11が固化することによって前記胴部材1と前記底部材2との連設部が接合されると共に前記排気孔12が封止され、真空二重構造の保冷温体が形成される。   By heating up to the melting temperature of the brazing material 11 in the vacuum heating furnace, the space 6 in the body member 1 is evacuated through the exhaust holes 12, and when the heating reaches the melting temperature of the brazing material 11, the brazing material 11 is heated. When the material 11 is melted and the brazing material 11 is solidified, the connecting portion of the body member 1 and the bottom member 2 is joined and the exhaust hole 12 is sealed, so that the cold insulation temperature of the vacuum double structure is achieved. The body is formed.

即ち、前記胴部材1の形成(真空断熱層の形成)と共に、該胴部材1と前記底部材2との連設接合も同時に行われるため、極めて効率良く保冷温体が製造されることとなる。   That is, since the body member 1 (formation of the vacuum heat insulation layer) and the continuous joining of the body member 1 and the bottom member 2 are simultaneously performed, the cold insulator is manufactured very efficiently. .

また、異種金属同士を、例えば溶接などにより接合した場合には、十分な接着力が得られず容易に分離するなど良好に接合されない場合があるが、この点、本発明はたとえ異種金属同士であっても両者を十分な接着力で確実に接合し得るろう材11により前記胴部材1と前記底部材2とを接合するから、前記胴部材1と底部材2を例えば異なる金属で構成した場合においても、両者の接合が堅固且つ確実に行われる。   In addition, when dissimilar metals are joined together by welding, for example, sufficient adhesion may not be obtained and they may not be satisfactorily separated and may not be joined well. Even if there is such a case, the body member 1 and the bottom member 2 are joined together by the brazing material 11 that can reliably join the two with sufficient adhesive force. In this case, the bonding between the two is firmly and reliably performed.

また、請求項6記載の発明においては、例えば、胴部材1内に飲料を収容したペットボトルなどを収納すると、前記ペットボトル内の飲料は空隙部6を真空断熱層とした前記胴部材1によって放熱が阻止されるため保冷温され、また、底部材2を加熱する加熱部,冷却する冷却部又は加熱若しくは冷却する加熱冷却部4によって、前記ペットボトル内の飲料は前記底部材2を介して加熱若しくは冷却されることとなり、よって、秀れた保冷温機能は勿論、加熱機能若しくは冷却機能を有する保冷温装置となる。   Moreover, in invention of Claim 6, when the PET bottle etc. which accommodated the drink in the trunk | drum member 1 are accommodated, for example, the drink in the said PET bottle is by the said trunk | drum member 1 which used the space | gap part 6 as the vacuum heat insulation layer. The heat in the plastic bottle is passed through the bottom member 2 by the heating unit for heating the bottom member 2, the cooling unit for cooling, or the heating / cooling unit 4 for heating or cooling. It is heated or cooled, so that it becomes a cold insulation temperature apparatus having a heating function or a cooling function as well as an excellent cold insulation temperature function.

本発明の具体的な実施例1について図面に基づいて説明する。   A specific embodiment 1 of the present invention will be described with reference to the drawings.

本実施例は、金属製の内筒体1aと金属製の外筒体1bとから成り該内筒体1aと外筒体1b間の空隙部6が真空断熱層である胴部材1と、この胴部材1の下部開口部1dを閉塞する底部材2とで構成される保冷温体Aの製造方法であって、前記胴部材1に設けられた真空排気用の排気孔12の近傍位置において該胴部材1の下部開口部1dを前記底部材2で閉塞すると共に前記底部材2と前記胴部材1との連設部若しくはその近傍にろう材11を配し、続いて、真空加熱により該胴部材1内から前記排気孔12を介して排気すると共に前記ろう材11を溶融して該ろう材11により前記胴部材1と前記底部材2との接合及び前記排気孔12の封止をするものである。   This embodiment comprises a body member 1 comprising a metal inner cylinder 1a and a metal outer cylinder 1b, and a gap 6 between the inner cylinder 1a and the outer cylinder 1b being a vacuum heat insulating layer. A method of manufacturing a cold insulation body A comprising a bottom member 2 that closes a lower opening 1d of a body member 1, in the vicinity of an exhaust hole 12 for vacuum exhaust provided in the body member 1. A lower opening 1d of the body member 1 is closed by the bottom member 2, and a brazing material 11 is disposed at a portion where the bottom member 2 and the body member 1 are connected or in the vicinity thereof, and the body is then heated by vacuum heating. Exhaust from the member 1 through the exhaust hole 12 and melt the brazing material 11 to join the body member 1 and the bottom member 2 and seal the exhaust hole 12 by the brazing material 11 It is.

具体的に本実施例に係る保冷温体Aの製造方法について説明する。   The manufacturing method of the cold insulator A according to the present embodiment will be specifically described.

先ず、前記内筒体1aの上端部と前記外筒体1bの上端部及び前記内筒体1aの下端部と前記外筒体1bの下端部とをアルゴン溶接によって夫々接合して前記胴部材1を形成する。   First, the upper end portion of the inner cylindrical body 1a, the upper end portion of the outer cylindrical body 1b, the lower end portion of the inner cylindrical body 1a, and the lower end portion of the outer cylindrical body 1b are joined by argon welding, respectively, and the body member 1 Form.

この胴部材1の下部開口部1dには、前記内筒体1aの下端を外側に折曲して下方程拡開となるテーパ部13が形成されており、該胴部材1の、本実施例では下部内面に設けた真空排気用の排気孔12の近傍位置において該胴部材1の下部開口部1dに前記底部材2を、下部開口部1dのテーパ部13と該底部材2の周面に形成したテーパ部14とを合致させて嵌入する。   A taper portion 13 is formed in the lower opening 1d of the body member 1 so that the lower end of the inner cylindrical body 1a is bent outward and expanded downward. The bottom member 2 is placed in the lower opening 1d of the body member 1 at the position near the exhaust hole 12 for evacuation provided in the lower inner surface, and the tapered portion 13 of the lower opening 1d and the peripheral surface of the bottom member 2 are placed. The formed taper portion 14 is fitted and fitted.

前記排気孔12は、前記胴部材1の下部内面、即ち、前記内筒体1aの下端近傍の所定箇所に穿設された幅約0.5mmの孔である。尚、本実施例では、前記胴部材1を形成した後に前記排気孔12を穿設したが、例えば、前記胴部材1を形成する前に、予め前記内筒体1aに排気孔12を穿設しておいても良い。   The exhaust hole 12 is a hole having a width of about 0.5 mm that is drilled at a predetermined position near the lower inner surface of the body member 1, that is, near the lower end of the inner cylinder 1a. In the present embodiment, the exhaust hole 12 is formed after the body member 1 is formed. For example, before the body member 1 is formed, the exhaust hole 12 is formed in the inner cylinder 1a in advance. You can keep it.

前記底部材2の下部には、図2及び図5に図示したように、前記排気孔12の近傍にして前記テーパ部13とで溶融したろう材11が充填される環状の切欠部15が形成されており、前記胴部材1の下部開口部1dを前記底部材2で閉塞した状態のまま上下逆さ向きにし、前記環状の切欠部15に配設する(図3及び図5)。尚、前記ろう材11は、前記排気孔12を介しての前記空隙部6内の排気を考慮して、図3に図示したように排気孔12位置だけは避けて配設する。   As shown in FIGS. 2 and 5, an annular notch 15 is formed in the lower portion of the bottom member 2 in the vicinity of the exhaust hole 12 and filled with the brazing material 11 melted by the tapered portion 13. The lower opening 1d of the body member 1 is turned upside down while being closed by the bottom member 2, and is disposed in the annular notch 15 (FIGS. 3 and 5). The brazing material 11 is disposed so as to avoid only the position of the exhaust hole 12 as shown in FIG. 3 in consideration of the exhaust in the gap 6 through the exhaust hole 12.

本実施例では、前記底部材2の周面下部において前記環状の切欠部15を形成したが、これに限らず、例えば、前記底部材2の周面の任意の箇所に前記切欠部15を形成するなど、前記排気孔12近傍位置にて溶融したろう材11が該排気孔12を封止すると共に前記胴部材1と底部材2とを良好に連設接合し得る形状であればどのような形状でも良い。   In the present embodiment, the annular notch 15 is formed in the lower part of the peripheral surface of the bottom member 2. However, the present invention is not limited to this, and for example, the notch 15 is formed at any location on the peripheral surface of the bottom member 2. Whatever the shape, the brazing filler metal 11 melted in the vicinity of the exhaust hole 12 can seal the exhaust hole 12 and can satisfactorily join the body member 1 and the bottom member 2 together. It may be in shape.

続いて、この上下逆さ向きの保冷温体Aを真空加熱炉内に配置し、ろう材11の溶融温度以下までの加熱により前記排気孔12を介して前記胴部材1の空隙部6内を排気し、真空加熱炉内を更に昇温させ、加熱が前記ろう材11の溶融温度に達すると該ろう材が溶融し、図6に図示したように、溶融した前記ろう材11が前記環状の切欠部15内に流れ込んで該環状の切欠部15内に溶融ろう材11が充填されると共に、前記排気孔12に溶融ろう材11が流れ込む。   Subsequently, the cold insulation warming body A facing upside down is placed in a vacuum heating furnace, and the space 6 in the body member 1 is exhausted through the exhaust hole 12 by heating up to the melting temperature of the brazing filler metal 11. Then, the temperature inside the vacuum heating furnace is further raised, and when the heating reaches the melting temperature of the brazing material 11, the brazing material is melted, and as shown in FIG. The molten brazing filler metal 11 is filled into the annular notch 15 by flowing into the portion 15, and the molten brazing filler metal 11 flows into the exhaust hole 12.

このろう材11の固化によって、図4及び図6に図示したように、前記胴部材1と前記底部材2とが接合されると共に前記排気孔12が封止されて真空二重構造の保冷温体Aが形成されることとなる。   By solidifying the brazing material 11, the body member 1 and the bottom member 2 are joined and the exhaust hole 12 is sealed as shown in FIGS. The body A will be formed.

以上のように製造される保冷温体Aは、前記底部材2の外側面に該底部材2を加熱若しくは冷却する保冷温体Aが設けられて保冷温装置となる。   The cold insulation warming body A manufactured as described above is provided with the cold insulation warming body A for heating or cooling the bottom member 2 on the outer surface of the bottom member 2 to be a cold insulation thermal apparatus.

この保冷温装置は、例えばペットボトルなどの飲料が入った貯液容体10を収納し、該貯液容体10内の飲料を保冷温するものであり、具体的には後述のような構成のものである。   This cold insulation temperature device is for storing a liquid storage container 10 containing a beverage such as a plastic bottle, and for keeping the beverage in the liquid storage container 10 at a cold temperature. It is.

尚、本実施例では、前記貯液容体10として一般的に販売されている500mlタイプのペットボトルを採用している。   In this embodiment, a 500 ml type PET bottle generally sold as the liquid storage container 10 is used.

前記胴部材1はステンレス製の内筒体1aとステンレス製の外筒体1bとから成る二重構造の無底筒体である。   The body member 1 is a bottomless cylindrical body having a double structure comprising an inner cylindrical body 1a made of stainless steel and an outer cylindrical body 1b made of stainless steel.

この胴部材1はステンレス製であるが、チタン製などの熱伝導率の低い部材であればどのような部材で形成しても良い。   The body member 1 is made of stainless steel, but may be made of any member as long as it has a low thermal conductivity such as titanium.

この胴部材1の上部外周には、該胴部材1を構成する前記外筒体1bの上部を折曲して形成した、後述の天部材9の凹条20と係合する凸部21が設けられている。   On the outer periphery of the upper portion of the barrel member 1, there is provided a convex portion 21 that is formed by bending the upper portion of the outer cylindrical body 1 b that constitutes the barrel member 1 and that engages with a concave strip 20 of a ceiling member 9 described later. It has been.

また、胴部材1の内径は、該胴部材1内に前記ペットボトルを良好に収納でき、且つ大きすぎないように約70mmに形成されている。   The body member 1 has an inner diameter of about 70 mm so that the plastic bottle can be satisfactorily accommodated in the body member 1 and is not too large.

また、胴部材1の高さは、該胴部材1内に前記ペットボトルを収納した際に、該ペットボトルの肩部(ペットボトル上部の錐形状の部分)の中程から上方部位が突出するような高さに形成されている。   Moreover, when the said plastic bottle is accommodated in this trunk | drum member 1, the upper part protrudes from the middle part of the shoulder part (cone-shaped part of the upper part of a plastic bottle) of the trunk | drum member 1 height. It is formed at such a height.

また、胴部材1の下部開口部1dには、前記内筒体1aの下端を外側に折曲して下方程拡開となるテーパ部13が形成されている。   Further, a tapered portion 13 is formed in the lower opening 1d of the body member 1 so that the lower end of the inner cylindrical body 1a is bent outward and widens downward.

この胴部材1の下部開口部1dには、該下部開口部1dを閉塞する底部材2が設けられている。   A bottom member 2 that closes the lower opening 1 d is provided in the lower opening 1 d of the body member 1.

この底部材2は、アルミニウム製の板状部材で形成されており、周面には前記胴部材1の下部開口部1dに形成したテーパ部13と合致するテーパ部14が形成されている。   The bottom member 2 is formed of an aluminum plate-like member, and a tapered portion 14 that matches the tapered portion 13 formed in the lower opening 1d of the body member 1 is formed on the peripheral surface.

この底部材2はアルミニウム製であるが、銅製などの熱伝導率の高い部材であればどのような部材で形成しても良い。   The bottom member 2 is made of aluminum, but may be formed of any member as long as it has a high thermal conductivity such as copper.

また、この底部材2の外側面には、加熱冷却部4が設けられている。
この加熱冷却部4は、具体的には、ペルチェ素子5aよって発熱若しくは吸熱する熱源部5と、この熱源部5に直流電流を流す電源部7と、この直流電流の方向を切り替える切替部8とで構成されている。
A heating / cooling unit 4 is provided on the outer surface of the bottom member 2.
Specifically, the heating / cooling unit 4 includes a heat source unit 5 that generates heat or absorbs heat by the Peltier element 5a, a power source unit 7 that supplies a direct current to the heat source unit 5, and a switching unit 8 that switches the direction of the direct current. It consists of

また、加熱冷却部4に設けた前記ペルチェ素子5aは、異なる二種類の熱電材料(図示省略)の接合部に電流を流すと、片方の熱電材料からもう片方の熱電材料へ熱が移動するというペルチェ効果を利用した素子であり、電流の方向を逆転させると熱の移動方向も逆転するものである。   The Peltier element 5a provided in the heating / cooling section 4 is said to transfer heat from one thermoelectric material to the other thermoelectric material when an electric current is passed through the junction of two different types of thermoelectric materials (not shown). It is an element using the Peltier effect, and when the current direction is reversed, the heat transfer direction is also reversed.

また、加熱冷却部4には、前記ペルチェ素子5aに一定方向の電流を流す電源部7が設けられており、この電源部7は、単に前記ペルチェ素子5aに一定方向に電流を流すだけでなく、前記ペルチェ素子5aの放熱及び吸熱温度を適宜温度に保てるように、電源部7から前記ペルチェ素子5aに流す電流量や印加する電圧量を適宜調整する温度制御部(図示省略)が設けられている。   Further, the heating / cooling unit 4 is provided with a power supply unit 7 for supplying a current in a fixed direction to the Peltier element 5a. The power supply unit 7 not only supplies a current in a fixed direction to the Peltier element 5a. In addition, a temperature control unit (not shown) for appropriately adjusting the amount of current flowing from the power source unit 7 to the Peltier element 5a and the amount of voltage to be applied is provided so that the heat radiation and endothermic temperature of the Peltier element 5a can be appropriately maintained. Yes.

また、加熱冷却部4には、前記電源部7の電流方向を任意に切り替えて、前記ペルチェ素子5aの発熱及び吸熱の切り替える切替部8が設けられている。   In addition, the heating / cooling unit 4 is provided with a switching unit 8 that arbitrarily switches the current direction of the power supply unit 7 and switches between heat generation and heat absorption of the Peltier element 5a.

尚、本実施例では、前記底部材2の外側面に該底部材2を加熱若しくは冷却する前記加熱冷却部4を設けた構成であるが、例えば、この底部材2の外側面に該底部材2を加熱する加熱部又は該底部材2を冷却する冷却部を設けた構成としてもよい。   In this embodiment, the heating / cooling section 4 for heating or cooling the bottom member 2 is provided on the outer surface of the bottom member 2. For example, the bottom member 2 is provided on the outer surface of the bottom member 2. A heating unit for heating 2 or a cooling unit for cooling the bottom member 2 may be provided.

また、本実施例では、前記胴部材1の上部開口部1cに、可撓性を有する部材で形成した天部材9が設けられており、この天部材9は、前記胴部材1の上部開口部1cからペットボトルの肩部が突出できるように、中央に開口部を有する形状に形成されている。   Further, in this embodiment, a top member 9 made of a flexible member is provided in the upper opening 1 c of the body member 1, and this top member 9 is an upper opening of the body member 1. It is formed in the shape which has an opening part in the center so that the shoulder part of a plastic bottle can protrude from 1c.

この天部材9は、具体的には、中心位置に開口部を有し、周縁には略直交方向に周壁部が垂下した形状で、この周壁部の内側面には、前記凸条21に係合する凹条20が形成されており、この天部材9を胴部材1の上端部に被嵌し、前記凸条21に前記凹条20を係合させることで保冷温体Aに装着する。   Specifically, the ceiling member 9 has an opening at the center position, and a peripheral wall portion is suspended from the peripheral edge in a substantially orthogonal direction, and the inner surface of the peripheral wall portion is associated with the ridge 21. Concave recesses 20 are formed. The top member 9 is fitted on the upper end of the body member 1 and the recesses 20 are engaged with the protrusions 21 to be attached to the cold insulation body A.

また、天部材9は、可撓性を有する部材で形成されているため、ペットボトルの形状に合致して当接させることができる為、良好な保冷温状態が得られることとなり前記ペットボトルの挿入又は取り出しが容易であり、更に、ペットボトルを取り出し易いように、開口部の開口縁には放射方向、本実施例の場合には略等間隔で四つの切れ込みが設けられている。   In addition, since the top member 9 is formed of a flexible member, the top member 9 can be brought into contact with the shape of the plastic bottle, so that a good cold insulation temperature state can be obtained and In order to facilitate the insertion or removal, and to facilitate the removal of the PET bottle, four notches are provided at the opening edge of the opening in the radial direction, in the present embodiment, at substantially equal intervals.

尚、天部材9を可撓性を有する部材で構成し、且つ、前記切れ込みを長く形成しておけば、開口は無くても良い。この場合、缶ジュースなど高さが低い貯液容体10を保冷温体A内に収納した際、開口がない分放熱を良好に阻止できることとなる。   If the top member 9 is made of a flexible member and the slit is formed long, the opening may be omitted. In this case, when the liquid storage container 10 having a low height, such as can juice, is stored in the cold insulation body A, heat radiation can be effectively prevented by the absence of the opening.

本実施例は上述のようにするから、前記胴部材1の形成と共に、該胴部材1と前記底部材2との連設接合も同時に行われるため、極めて効率良く前記保冷温体Aを製造することができる画期的で実用性に秀れた保冷温体Aの製造方法である。   Since the present embodiment is as described above, the body member 1 and the bottom member 2 are connected together at the same time as the body member 1 is formed, so that the cold insulator A is manufactured very efficiently. This is an innovative and practical method for producing the cold insulation body A.

また、前記胴部材1と前記底部材2とは異なる金属部材によって形成されているために、例えば溶接などにより接合した場合には、十分な接合力が得られず容易に分離するなど良好に接合されない場合があるが、この点、本実施例においてはたとえ異種金属同士であっても両者を十分な接着力で確実に接合し得るろう材11によって前記胴部材1及び前記底部材2とを接合するから、異種金属同士である両者を堅固且つ確実に連設接合することができ、この点においても実用性に秀れた保冷温体Aの製造方法である。   Further, since the body member 1 and the bottom member 2 are formed of different metal members, for example, when they are joined by welding or the like, a sufficient joining force cannot be obtained and the members are easily separated. However, in this embodiment, the body member 1 and the bottom member 2 are joined to each other by a brazing material 11 that can reliably join the two metals with sufficient adhesive force. Therefore, both of the different kinds of metals can be firmly and surely continuously joined together, and in this respect also, the method for manufacturing the cold insulator A having excellent practicality.

また、前記ろう材11を前記胴部材1と底部材2との連設箇所若しくはその近傍に配する際、該ろう材11は溝状の切欠部15の開口部を覆うように配すから、必然的に、図5に図示したように該溝状の切欠部15によってろう材11が自然に位置決めされ、該ろう材11の位置ズレが簡単且つ良好に阻止され確実に溶融したろう材11を前記切欠部15内に充填させることができるなど、この点においても作業性に秀た保冷温体Aの製造方法である。   In addition, when the brazing material 11 is disposed at a location where the body member 1 and the bottom member 2 are connected or in the vicinity thereof, the brazing material 11 is disposed so as to cover the opening of the groove-shaped notch 15. Inevitably, as shown in FIG. 5, the brazing material 11 is naturally positioned by the groove-shaped notch 15, and the brazing material 11 is easily and satisfactorily prevented from being misaligned. This is a manufacturing method of the cold insulator A that is excellent in workability also in that the notch 15 can be filled.

ところで、近年、前記ペットボトルなどの貯液容体10に入った飲料は自動販売機やコンビニエンスストア等、様々な所で販売されており、いつでも気軽に購入して飲むことができる。   By the way, in recent years, beverages contained in the liquid storage container 10 such as the PET bottles have been sold in various places such as vending machines and convenience stores, and can be easily purchased and drunk at any time.

ところが、これら容器に入った飲料は一度に飲み切れなかった場合、残余はぬるくなってしまい、購入時に比べて著しく飲み心地や味を損ねてしまうことになる。   However, if the beverages contained in these containers cannot be consumed at one time, the remainder becomes slimy, and the drinking comfort and taste are significantly impaired compared with the time of purchase.

このように、保冷温性に乏しい容器に入れられたこれら飲料は、最適な温度で美味しく飲めるのは最初だけで、残余はぬるくなってしまい味を損ねてしまう。   As described above, these beverages placed in a container having poor heat insulation and warmth can be drunk at an optimal temperature only at the beginning, and the remainder becomes slimy and the taste is deteriorated.

従って、これら飲料を美味しく飲むためには、ぬるくなってしまう前に飲み切ってしまうか、何らかの手段で購入した際の最適な温度で保冷温するか、或いはぬるくなってしまった飲料を何らかの手段で再冷却若しくは再加熱しなければならない。   Therefore, in order to drink these beverages deliciously, either drink them up before they become slimy, or keep them cool at the optimal temperature when they are purchased by some means, or use some means to cool them Must be recooled or reheated.

例えば、ペットボトルなどの容器に入った飲料をクーラーボックスなどの保冷温容器に入れて持ち運べば、該飲料を最適な温度に保つことができ、よって、いつでも美味しく該飲料を飲むことができる。   For example, if a beverage contained in a container such as a plastic bottle is put in a cool and warm container such as a cooler box and carried, the beverage can be maintained at an optimum temperature, and thus the beverage can be drunk at any time.

しかし、クーラーボックスは、保冷機能しか無く、ぬるくなったら当該飲料を冷却することができない。また、氷などの冷却材を多用することで再冷却も可能であるが、永続性が無い。   However, the cooler box has only a cold-retaining function and cannot cool the beverage when it becomes slimy. Moreover, re-cooling is possible by using a lot of coolant such as ice, but it is not permanent.

この点、本実施例に係る保冷温体Aの製造方法によって製造された保冷温体Aと、該保冷温体Aの底部材2の外側面に設ける加熱冷却部4とから成る保冷温装置は、上述のように構成したので、飲料をペットボトルごと保冷温体A内に収納するだけの簡単な作業で該ペットボトル内の飲料の放熱を保冷温体Aによって阻止し良好に保冷温機能を発揮することは勿論、該保冷温体Aの前記底部材2の外側面に設けられる前記加熱冷却部4によって、例えば、不適温になってしまった飲料を前記加熱冷却部4によって再加熱若しくは再冷却することで再び最適な温度に戻すこともできるなど実用性に秀れた保冷温装置を、本実施例、しかも、本実施例に係る保冷温体Aの製造方法によって製造される量産性に秀れた保冷温体Aを採用することで量産性にも秀れた画期的な保冷温装置となる。   In this regard, the cold insulation temperature apparatus comprising the cold insulation temperature body A manufactured by the method for manufacturing the cold insulation temperature body A according to the present embodiment and the heating / cooling unit 4 provided on the outer surface of the bottom member 2 of the cold insulation temperature body A is as follows. Since it is configured as described above, the heat insulation of the beverage in the plastic bottle is prevented by the cold insulation body A by a simple operation of storing the beverage together with the plastic bottle in the cold insulation body A. Of course, for example, the heating / cooling unit 4 provided on the outer surface of the bottom member 2 of the cold insulation warmer A can reheat or re-heat a beverage that has become unsuitable temperature by the heating / cooling unit 4. The cool and warm device excellent in practicality, such as being able to return to the optimum temperature again by cooling, is mass-produced by this embodiment, and also by the manufacturing method of the cool and warm body A according to this embodiment. By adopting excellent cold insulation body A Also a Xiu the innovative cold temperature device sex.

また、前記胴部材1は空隙部6の真空断熱層によって秀れた保冷温性を有するのは勿論、熱伝導率の低いステンレス製の部材で形成したことによって一層保冷温性に秀れ、また、前記底部材2を熱伝導率の高いアルミニウム製の部材で形成されているので、前記熱源部5からの発熱若しくは吸熱が底部材2を介して効率良くペットボトル内の飲料に伝わり効率良く加熱若しくは冷熱機能が発揮されるなど、熱効率性に秀れた保冷温装置となる。   In addition, the body member 1 has an excellent cold insulation temperature property due to the vacuum heat insulating layer of the gap 6, and of course, the body member 1 is made of a stainless steel member having a low thermal conductivity. Since the bottom member 2 is formed of an aluminum member having a high thermal conductivity, heat generated or absorbed from the heat source part 5 is efficiently transmitted to the beverage in the plastic bottle via the bottom member 2 and efficiently heated. Or it becomes a cold insulation temperature apparatus excellent in thermal efficiency, such as exhibiting a cooling function.

また、胴部材1の上部開口部1cに設けた天部材9によって、上部開口部1c側からの放熱が阻止され、この点においても一層保冷温性に秀れた保冷温装置となる。   Further, the top member 9 provided in the upper opening 1c of the body member 1 prevents heat dissipation from the upper opening 1c side, and in this respect as well, the cold-reserving / warming device is further excellent in the cold-reserving property.

また、天部材9によって上方への放熱を阻止できるだけでなく、該天部材9の開口縁が可撓性を有するために、該天部材9を取り付けた状態のまま収納体3内にペットボトルを出し入れすることが可能で、しかもの開口縁から前記ペットボトルの肩部が突出しているから、該ペットボトルを取り出さずとも、収納した状態のままキャップを開けてコップに注いだり飲んだりすることができるなど、実用性に秀れた保冷温装置となる。   Moreover, not only can the top member 9 prevent heat dissipation upward, but since the opening edge of the top member 9 has flexibility, a plastic bottle can be placed in the container 3 with the top member 9 attached. Since the shoulder portion of the plastic bottle protrudes from the opening edge of the bottle, it is possible to open the cap and pour it into the cup or drink it without taking out the plastic bottle. It can be a cool and warm device with excellent practicality.

本発明の具体的な実施例2について図面に基づいて説明する。   A second embodiment of the present invention will be described with reference to the drawings.

本実施例は、実施例1に係る保冷温体Aの製造方法の別例であり、具体的には、図7及び図8に図示したように、前記底部材2には前記胴部材1の下部が嵌入される環状凹部16が設けられ、この環状凹部16は、該環状凹部16内に前記胴部材1の排気孔12が位置する深さに設定され、更に、この環状凹部16は溶融した前記ろう材11が充填される空間とするものである。   The present embodiment is another example of the method for manufacturing the cold insulator A according to the first embodiment. Specifically, as illustrated in FIGS. 7 and 8, the bottom member 2 includes the body member 1. An annular recess 16 into which the lower portion is inserted is provided. The annular recess 16 is set to a depth at which the exhaust hole 12 of the body member 1 is located in the annular recess 16, and the annular recess 16 is melted. The space is filled with the brazing material 11.

具体的には、底部材2は前記胴部材1の下部開口部外径より大きい径を有する円板状部材の上部表面に、平面視円環状な環状凹部16を凹設した形状である。   Specifically, the bottom member 2 has a shape in which an annular recess 16 having an annular shape in plan view is formed on the upper surface of a disk-shaped member having a diameter larger than the outer diameter of the lower opening of the body member 1.

また、この底部材2の環状凹部16の開口部外周縁は、図7に図示したように切欠されている。   Further, the outer peripheral edge of the opening of the annular recess 16 of the bottom member 2 is notched as shown in FIG.

即ち、前記ろう材11を配した際に該ろう材11が切欠形状により自然に位置決めされ、更に、溶融した前記ろう材11が確実に該環状凹部16内に流れ込むように上部程拡開した形状の切欠部17を凹設した形状である。   That is, when the brazing material 11 is disposed, the brazing material 11 is naturally positioned by the notch shape, and further, the notch having a shape that expands toward the upper part so that the molten brazing material 11 flows into the annular recess 16 surely. The shape is such that the portion 17 is recessed.

本実施例では、前記環状凹部16に、胴部材1の下部を嵌入し、該環状凹部16の開口縁に設けた前記流れ案内溝17の開口部を覆うようにろう材11を配して図7に図示する状態を作出する。   In this embodiment, the lower part of the body member 1 is fitted into the annular recess 16, and the brazing material 11 is arranged so as to cover the opening of the flow guide groove 17 provided at the opening edge of the annular recess 16. 7 is created.

続いて、この状態で前記胴部材1及び底部材2を真空加熱炉内に配置して、前記ろう材11の溶融温度以下までの加熱により前記排気孔12を介して胴部材1の空隙部6の排気を行う。   Subsequently, in this state, the body member 1 and the bottom member 2 are placed in a vacuum heating furnace, and the gap 6 of the body member 1 is interposed through the exhaust hole 12 by heating up to the melting temperature of the brazing material 11. Exhaust the air.

この胴部材1の空隙部6の排気が完了したら、前記真空加熱炉内をろう材11の融解温度まで昇温して該ろう材11を溶融させると、図8に図示するように、溶融ろう材11が前記流れ案内溝17を流れ落ちて前記環状凹部16内に充填されると共に、該環状凹部16内に位置する前記排気孔12にも該溶融ろう材11が流れ込み、該ろう材11によって、排気孔12が封止されることとなる。   When the exhaust of the gap 6 of the body member 1 is completed, the temperature of the inside of the vacuum heating furnace is raised to the melting temperature of the brazing material 11 to melt the brazing material 11, as shown in FIG. The material 11 flows down the flow guide groove 17 and is filled into the annular recess 16, and the molten brazing material 11 also flows into the exhaust hole 12 located in the annular recess 16, The exhaust hole 12 is sealed.

本実施例は上述のようにするから、実施例1と同様、胴部材1と底部材2との連設箇所が接合されると共に前記排気孔12が封止され、真空二重構造の胴部材1が形成される為、極めて効率良く前記保冷温体Aを製造することが可能な画期的な保冷温体Aの製造方法である。   Since the present embodiment is as described above, as in the first embodiment, the connecting portions of the body member 1 and the bottom member 2 are joined and the exhaust hole 12 is sealed, so that the body member has a vacuum double structure. 1 is formed, it is an epoch-making manufacturing method of the cold insulator A that can manufacture the cold insulator A very efficiently.

また、前記ろう材11を前記胴部材1と前記底部材2との連設箇所若しくはその近傍に配する際、図7に図示したように前記切欠部17の開口部にろう材11を位置決めすることができるから、該ろう材11の位置ズレを簡単且つ確実に阻止することができ、しかも、この切欠部17の開口部に配された前記ろう材11が溶融した際には、溶融したろう材11が前記切欠部17を流れ落ちて確実に前記環状凹部16内にろう材11を充填させることができ、この点においても、作業性に秀れた保冷温体Aの製造方法である。   Further, when the brazing material 11 is disposed at a location where the body member 1 and the bottom member 2 are connected or in the vicinity thereof, the brazing material 11 is positioned at the opening of the notch 17 as shown in FIG. Therefore, the displacement of the brazing material 11 can be easily and reliably prevented, and when the brazing material 11 disposed in the opening of the notch 17 is melted, the brazing material 11 will be melted. The material 11 can flow down the notch 17 and reliably fill the annular recess 16 with the brazing material 11, and in this respect as well, this is a method for manufacturing the cold insulator A having excellent workability.

また、前記胴部材1の下部開口部1dを前記底部材2で閉塞した後、これらを上下逆さ向きにして真空加熱炉に配置する必要がなく、それだけ作業性に秀れる。しかも、仮に前記環状凹部16に配した前記ろう材11の量が多すぎるなどして、溶融したろう材11が環状凹部16から溢れてしまった場合にも、この溢れたろう材11によって前記胴部材1が汚れることが無い。即ち、仮に上下逆さ向きであると、前記溢れたろう材11が前記胴部材1を垂下方向に垂れ流れ、該胴部材1を汚してしまうという問題があるが、本実施例においては、このような問題も解決されることとなる。   Further, after the lower opening 1d of the body member 1 is closed with the bottom member 2, it is not necessary to place them in an upside down orientation in a vacuum heating furnace, so that the workability is excellent. Moreover, even if the amount of the brazing material 11 disposed in the annular recess 16 is excessively large and the molten brazing material 11 overflows from the annular recess 16, the overflow brazing material 11 causes the barrel member to overflow. 1 does not get dirty. That is, if the direction is upside down, the overflowing brazing material 11 hangs down the trunk member 1 in the direction of drooping and contaminates the trunk member 1, but in this embodiment, The problem will be solved.

その余は実施例1と同様である。   The rest is the same as in Example 1.

実施例1に係る保冷温体の使用状態の説明図である。It is explanatory drawing of the use condition of the cold insulator warmer which concerns on Example 1. FIG. 実施例1に係る保冷温体の製造方法を示す説明斜視図である。FIG. 3 is an explanatory perspective view illustrating a method for manufacturing a cold insulator according to Example 1. 実施例1に係る保冷温体の製造方法を示す説明斜視図である。FIG. 3 is an explanatory perspective view illustrating a method for manufacturing a cold insulator according to Example 1. 実施例1に係る保冷温体の製造方法を示す説明斜視図である。FIG. 3 is an explanatory perspective view illustrating a method for manufacturing a cold insulator according to Example 1. 実施例1に係る保冷温体の製造方法を示す説明断面図である。It is explanatory sectional drawing which shows the manufacturing method of the cold insulator warming body which concerns on Example 1. FIG. 実施例1に係る保冷温体の製造方法を示す説明断面図である。It is explanatory sectional drawing which shows the manufacturing method of the cold insulator warming body which concerns on Example 1. FIG. 実施例2に係る保冷温体の製造方法を示す説明断面図である。It is explanatory sectional drawing which shows the manufacturing method of the cold insulator warming body which concerns on Example 2. FIG. 実施例2に係る保冷温体の製造方法を示す説明断面図である。It is explanatory sectional drawing which shows the manufacturing method of the cold insulator warming body which concerns on Example 2. FIG.

1 胴部材
1a 内筒体
1b 外筒体
1d 下部開口部
2 底部材
4 加熱部,冷却部,加熱冷却部
5 熱源部
5a ペルチェ素子
6 空隙部
7 電源部
8 切替部
11 ろう材
12 排気孔
13 テーパ部
14 テーパ部
15 凹溝部
16 円環状溝
DESCRIPTION OF SYMBOLS 1 Body member 1a Inner cylinder 1b Outer cylinder 1d Lower opening 2 Bottom member 4 Heating part, cooling part, heating and cooling part 5 Heat source part 5a Peltier element 6 Air gap part 7 Power supply part 8 Switching part
11 Brazing material
12 Exhaust hole
13 Taper
14 Taper
15 Groove
16 annular groove

Claims (8)

金属製の内筒体と金属製の外筒体とから成り該内筒体と該外筒体との間の空隙部が真空断熱層である胴部材と、この胴部材の下部開口部を閉塞する底部材とで構成される保冷温体の製造方法であって、前記内筒体の下部には下端程拡開するテーパ部が形成されると共に、真空排気用の排気孔が設けられており、一方、前記底部材の周面には前記テーパ部と合致するテーパ部が設けられており、また、前記底部材の前記排気孔の近傍位置には前記テーパ部とで溶融した後記ろう材が充填される切欠部が設けられており、前記排気孔の近傍位置において前記胴部材の前記下部開口部を前記底部材で閉塞すると共に、前記切欠部にろう材を配設し、続いて、真空加熱により前記胴部材内から前記排気孔を介して排気すると共に、前記ろう材を溶融し該ろう材により前記胴部材と前記底部材との接合及び前記排気孔の封止をすることを特徴とする保冷温体の製造方法。 A body member composed of a metal inner cylinder body and a metal outer cylinder body , in which a gap between the inner cylinder body and the outer cylinder body is a vacuum heat insulating layer, and a lower opening of the body member is closed. And a bottom portion of the inner cylinder, the lower end of the inner cylinder is formed with a tapered portion that expands toward the lower end, and an exhaust hole for vacuum exhaust is provided, In addition, a taper portion that matches the taper portion is provided on the peripheral surface of the bottom member, and a brazing filler material that is melted by the taper portion is filled in the vicinity of the exhaust hole of the bottom member. that notch is provided, as well as closing the lower opening of the cylinder member Te vicinity odor of the exhaust hole in said bottom member, arranged a brazing material in the cutout portion, followed by vacuum While being exhausted from the body member through the exhaust hole by heating, the brazing material is melted. Method for producing a cold temperature element, characterized in that the brazing material to the sealing of the joint and the exhaust hole of said bottom member and said body member. 請求項1記載の保冷温体の製造方法において、前記排気孔は、前記胴部材の前記テーパ部における下端近傍に設けられ、前記切欠部は、前記底部材の下部に設けられ且つ前記底部材で前記胴部材の前記下部開口部を閉塞した際、前記排気孔が露出する構成であることを特徴とする保冷温体の製造方法。 2. The method for manufacturing a cold insulator according to claim 1 , wherein the exhaust hole is provided in the vicinity of a lower end of the tapered portion of the trunk member, and the notch is provided at a lower portion of the bottom member and is formed by the bottom member. The method for manufacturing a cold insulator , wherein the exhaust hole is exposed when the lower opening of the body member is closed . 請求項1,2いずれか1項に記載の保冷温体の製造方法において、前記胴部材は、前記内筒体の上部及び前記外筒体の上部並びに、及び前記内筒体の下部及び前記外筒体の下部を夫々接合して成るものであることを特徴とする保冷温体の製造方法。   The method for manufacturing a cold insulator according to any one of claims 1 and 2, wherein the body member includes an upper portion of the inner cylindrical body, an upper portion of the outer cylindrical body, and a lower portion of the inner cylindrical body and the outer portion. A method for manufacturing a cold insulator, characterized in that each of the lower portions of the cylindrical body is joined. 請求項1〜3いずれか1項に記載の保冷温体の製造方法において、前記切欠部は環状に形成されていることを特徴とする保冷温体の製造方法。 The method for manufacturing a cold insulator according to any one of claims 1 to 3 , wherein the notch is formed in an annular shape . 請求項1〜3いずれか1項に記載の保冷温体の製造方法において、前記ろう材は、前記胴部材の下部開口部を前記底部材で閉塞した状態のまま上下逆さ向きにして配設することを特徴とする保冷温体の製造方法。 The method for manufacturing a cold insulator according to any one of claims 1 to 3 , wherein the brazing material is disposed upside down while the lower opening of the body member is closed by the bottom member. A method for producing a cold insulation body, characterized in that. 請求項1〜5いずれか1項に記載の保冷温体の製造方法により製造された保冷温体の前記底部材の外側面に該底部材を加熱する加熱部,冷却する冷却部又は加熱若しくは冷却する加熱冷却部が設けられていることを特徴とする保冷温装置。   A heating unit that heats the bottom member on the outer surface of the bottom member of the cold insulation warm body manufactured by the method for manufacturing a cold insulation body according to any one of claims 1 to 5, a cooling unit that cools, or heating or cooling A cooling and heating apparatus characterized in that a heating / cooling section is provided. 請求項6記載の保冷温装置において、前記加熱冷却部は、ペルチェ素子に直流電流が流されることで発熱若しくは吸熱する熱源部と、この熱源部に直流電流を流す電源部と、この直流電流の方向を切り替える切替部とが設けられたものであることを特徴とする保冷温装置。   7. The cold insulation temperature apparatus according to claim 6, wherein the heating and cooling unit includes a heat source unit that generates heat or absorbs heat when a direct current is applied to the Peltier element, a power supply unit that supplies direct current to the heat source unit, A cool and warm device characterized in that a switching unit for switching directions is provided. 請求項6,7いずれか1項に記載の保冷温装置において、前記底部材は熱伝導率が高い部材で構成されていることを特徴とする保冷温装置。   8. The cool and warm device according to claim 6, wherein the bottom member is a member having a high thermal conductivity.
JP2004253246A 2004-08-31 2004-08-31 Method for manufacturing cold insulation body and cold insulation apparatus Expired - Fee Related JP4583843B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2004253246A JP4583843B2 (en) 2004-08-31 2004-08-31 Method for manufacturing cold insulation body and cold insulation apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2004253246A JP4583843B2 (en) 2004-08-31 2004-08-31 Method for manufacturing cold insulation body and cold insulation apparatus

Publications (2)

Publication Number Publication Date
JP2006068152A JP2006068152A (en) 2006-03-16
JP4583843B2 true JP4583843B2 (en) 2010-11-17

Family

ID=36149380

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2004253246A Expired - Fee Related JP4583843B2 (en) 2004-08-31 2004-08-31 Method for manufacturing cold insulation body and cold insulation apparatus

Country Status (1)

Country Link
JP (1) JP4583843B2 (en)

Families Citing this family (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5304419B2 (en) * 2009-04-30 2013-10-02 パナソニック株式会社 Method for producing gas adsorption device and gas adsorption device
AU2011323416B2 (en) * 2010-11-02 2016-05-19 Ember Technologies, Inc. Heated or cooled dishwasher safe dishware and drinkware
US10010213B2 (en) 2010-11-02 2018-07-03 Ember Technologies, Inc. Heated or cooled dishware and drinkware and food containers
US11950726B2 (en) 2010-11-02 2024-04-09 Ember Technologies, Inc. Drinkware container with active temperature control
US9814331B2 (en) 2010-11-02 2017-11-14 Ember Technologies, Inc. Heated or cooled dishware and drinkware
US9782036B2 (en) 2015-02-24 2017-10-10 Ember Technologies, Inc. Heated or cooled portable drinkware
WO2017192396A1 (en) 2016-05-02 2017-11-09 Ember Technologies, Inc. Heated or cooled drinkware
WO2017197026A1 (en) 2016-05-12 2017-11-16 Ember Technologies, Inc. Drinkware and plateware and active temperature control module for same
KR20180035662A (en) 2016-09-29 2018-04-06 엠버 테크놀로지스 인코포레이티드 Heated or cooled drinkware
EP4268687A3 (en) 2018-01-31 2023-12-06 Ember Technologies, Inc. Actively heated or cooled infant bottle system
JP2021522462A (en) 2018-04-19 2021-08-30 エンバー テクノロジーズ, インコーポレイテッド Portable cooler with active temperature control
CN108888053A (en) * 2018-07-18 2018-11-27 台州市泰澄电子科技有限公司 A kind of pure titanium metal vacuum cup and its manufacturing process
CN118640630A (en) 2019-01-11 2024-09-13 恩伯技术公司 Portable cooler with active temperature control
US11162716B2 (en) 2019-06-25 2021-11-02 Ember Technologies, Inc. Portable cooler
CN114174741A (en) 2019-06-25 2022-03-11 恩贝尔技术有限公司 Portable cooler
US11668508B2 (en) 2019-06-25 2023-06-06 Ember Technologies, Inc. Portable cooler
KR20220163473A (en) 2020-04-03 2022-12-09 엠버 라이프사이언스, 아이엔씨. Portable Cooler with Active Temperature Control

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003164964A (en) * 2001-11-30 2003-06-10 Odashima Kibutsu Seisakusho:Kk Method for manufacturing container

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003164964A (en) * 2001-11-30 2003-06-10 Odashima Kibutsu Seisakusho:Kk Method for manufacturing container

Also Published As

Publication number Publication date
JP2006068152A (en) 2006-03-16

Similar Documents

Publication Publication Date Title
JP4583843B2 (en) Method for manufacturing cold insulation body and cold insulation apparatus
US6584800B1 (en) Method and system for use with a consumable beverage
CN102482026B (en) Stay cool band
US8297072B2 (en) Container incorporating integral cooling element
ES2335839B1 (en) DEVICE FOR PRODUCING ICE CUBES, FRIDGE APPLIANCE WITH SUCH TYPE OF DEVICE AND PROCESS FOR PRODUCING ICE CUBES.
JP2010023926A (en) Portable low-temperature insulation bag of pet bottle
EP1177405A1 (en) Food preserving systems
JP4630610B2 (en) Cold insulation temperature apparatus and manufacturing method thereof
JP2003211941A (en) Device for retaining vessel
JP2001201233A (en) Heat/cold reserving apparatus
US11166577B2 (en) Beverage cooling apparatus
JP2007230584A (en) Beverage container
KR200171259Y1 (en) Portable keeping warm bag for drink case
KR200285445Y1 (en) Cup holder with thermoelectric semiconductor
JP6717586B2 (en) Method for manufacturing container with enclosed body and container with enclosed body
JPH09108088A (en) Coaster
US20110042549A1 (en) Metallic Cylinder Core Ice Mold Beverage Cooler
KR200359143Y1 (en) Cooling Pack
GB2286811A (en) Receptacle such as feeding bottle with sub compartment
KR200325322Y1 (en) Beverage cooling cup
KR200351680Y1 (en) Movable type chiller
JP3103273U (en) Bottle warmer
JP2001130646A (en) Hot temperature and cold temperature keeping device
JP4033003B2 (en) Cold storage room
KR20000017257U (en) A vessel for drink

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20070820

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20100419

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20100426

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20100625

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20100805

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20100901

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130910

Year of fee payment: 3

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

LAPS Cancellation because of no payment of annual fees