JP2021090336A - Equipment automatically stopping charging for electric scooter charging - Google Patents

Equipment automatically stopping charging for electric scooter charging Download PDF

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JP2021090336A
JP2021090336A JP2020074984A JP2020074984A JP2021090336A JP 2021090336 A JP2021090336 A JP 2021090336A JP 2020074984 A JP2020074984 A JP 2020074984A JP 2020074984 A JP2020074984 A JP 2020074984A JP 2021090336 A JP2021090336 A JP 2021090336A
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楊娟娟
Juanjuan Yang
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/30Constructional details of charging stations
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/60Heating or cooling; Temperature control
    • H01M10/61Types of temperature control
    • H01M10/613Cooling or keeping cold
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/60Heating or cooling; Temperature control
    • H01M10/62Heating or cooling; Temperature control specially adapted for specific applications
    • H01M10/625Vehicles
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/60Heating or cooling; Temperature control
    • H01M10/65Means for temperature control structurally associated with the cells
    • H01M10/656Means for temperature control structurally associated with the cells characterised by the type of heat-exchange fluid
    • H01M10/6561Gases
    • H01M10/6563Gases with forced flow, e.g. by blowers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/60Heating or cooling; Temperature control
    • H01M10/65Means for temperature control structurally associated with the cells
    • H01M10/656Means for temperature control structurally associated with the cells characterised by the type of heat-exchange fluid
    • H01M10/6567Liquids
    • H01M10/6568Liquids characterised by flow circuits, e.g. loops, located externally to the cells or cell casings
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/70Energy storage systems for electromobility, e.g. batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/7072Electromobility specific charging systems or methods for batteries, ultracapacitors, supercapacitors or double-layer capacitors
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/12Electric charging stations

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Power Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)
  • Protection Of Static Devices (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Secondary Cells (AREA)

Abstract

To provide equipment for automatically stopping charging for electric scooter charging, which is equipped with a function to remove a charger in a timely manner.SOLUTION: Equipment that automatically stops charging for electric scooter charging includes a main body 10, a transmission space 34 is provided at the upper end in the main body, and a power storage battery space 27 is provided at the left end in the main body, a transmission mechanism 70 that provides power is provided in the transmission space, a cooling mechanism 71 that cools a power storage battery 25 is provided in the power storage battery space, and an automatic charging stop mechanism that automatically pulls out a plug is provided at the right end of the main body. The automatic charging stop mechanism includes a restricted space 11 at the lower right in the main body, and a moving plate 59 that can slide left and right in the restricted space is provided in the restricted space.SELECTED DRAWING: Figure 1

Description

本願発明は電動スクーター分野を取り上げて、具体的には電動スクーター充電用の自動的に充電を止めることができる設備である。 The present invention takes up the field of electric scooters, and specifically, is equipment for charging electric scooters that can automatically stop charging.

電動スクーターは、便利な交通手段でありながら、エコな交通手段でもあり、フル充電した電動スクーターは、長時間使用できるので、人々に好かれている。
現在では、電動スクーターを充電するとき、フル充電した電動スクーターに対して適時に充電を止めない場合が多く、安全性に影響し、また、充電時に蓄電池が熱くなり、蓄電池の使用寿命が縮まる。 Electric scooters are a convenient means of transportation, but they are also an eco-friendly means of transportation, and fully charged electric scooters can be used for a long time, so people like them.
Nowadays, when charging an electric scooter, it is often the case that the fully charged electric scooter is not stopped in a timely manner, which affects safety and also causes the storage battery to become hot during charging, shortening the service life of the storage battery.

中国特許出願公開第104410139号明細書Chinese Patent Application Publication No. 104410139

適時に充電器を外す機能の備える、電動スクーター充電用の自動的に充電を止めることができる設備を提供することで、適時に充電器を電源から外せない問題を解決することを目的とする。 The purpose is to solve the problem that the charger cannot be removed from the power supply in a timely manner by providing equipment that can automatically stop charging for charging the electric scooter, which has a function to remove the charger in a timely manner.

上記の課題を解決するため、本願発明は以下の技術プランを採用する:本願発明である電動スクーター充電用の自動的に充電を止めることができる設備は、本体を含み、前記本体の中において上端には伝動空間が設けられ、前記本体の中において左端には蓄電池空間が設けられ、前記伝動空間の中には本願発明に動力を提供する伝動機構が設けられ、前記蓄電池空間の中には蓄電池を冷却する冷却機構が設けられ、前記本体の中において右端には自動的にプラグを抜ける自動充電停止機構が設けられ、
前記自動充電停止機構は前記本体の中において右下にある制限空間を含み、前記制限空間の中には前記制限空間の中で左右にスライドできる移動板が設けられ、前記移動板の右端面には移動棒が固定的に設けられ、前記移動棒の右端が前記制限空間の右壁から延びており、前記移動棒の右上面には固定板が固定的に設けられ、前記移動板の右端面には圧縮ばねが固定的に設けられ、前記圧縮ばねの右端が前記制限空間の右壁と連結され、前記移動板の左端面には弾性紐が固定的に連結され、前記制限空間の下壁には上方に開口した妨害ブロック空間が設けられ、前記妨害ブロック空間の中には前記妨害ブロック空間の中で上下にスライドできる妨害ブロックが設けられ、前記妨害ブロックの下端面には弾力ばねが固定的に設けられ、前記弾力ばねの下端が前記妨害ブロック空間の下壁と連結され、前記妨害ブロックの下端面には引き紐が固定的に連結され、前記位置制限空間の上側には磁力空間が設けられ、前記磁力空間の右側には右方に開口した前記自動充電停止機構が設けられ、前記磁力空間の中において下端には導電ブロックが設けられ、前記自動充電停止機構の中には前記導電ブロックと通電可能に連結されたプラグが設けられ、前記固定板に充電ヘッドを固定でき、前記充電ヘッドが前記プラグと通電できるように連結でき、前記磁力空間の下端には固定ブロックが設けられ、前記固定ブロックと前記導電ブロックとが通電コイルによって通電できるように連結され、前記固定ブロックには前記通電コイルが巻きつけられており、前記磁力空間の上端において左右壁にはいずれも内側へ開口した移動溝が形成され、前記磁力空間の上端には前記磁力空間の中で上下にスライドできる移動磁力ブロックが設けられ、前記移動磁力ブロックの左右端面がそれぞれ二つの前記移動ブロックと固定的に連結され、二つの前記移動ブロックの下端面にはいずれも圧力ばねが固定的に設けられ、前記圧力ばねの下端が前記移動溝の下壁と連結され、左側の前記移動ブロックの上端面には前記弾性紐の一端が固定的に連結され、前記移動磁力ブロックの右下部分には凸ブロックが固定的に設けられている。 In order to solve the above problems, the present invention adopts the following technical plan: The equipment for automatically stopping the charging of the electric scooter according to the present invention includes the main body and is the upper end in the main body. Is provided with a transmission space, a storage battery space is provided at the left end in the main body, a transmission mechanism for providing power to the present invention is provided in the transmission space, and a storage battery is provided in the storage battery space. A cooling mechanism is provided to cool the battery, and an automatic charging stop mechanism that automatically pulls out the plug is provided at the right end of the main body.
The automatic charging stop mechanism includes a restricted space at the lower right in the main body, and a moving plate that can slide left and right in the restricted space is provided in the restricted space, and a moving plate that can slide left and right in the restricted space is provided on the right end surface of the moving plate. Is fixedly provided with a moving rod, the right end of the moving rod extends from the right wall of the restricted space, and a fixed plate is fixedly provided on the upper right upper surface of the moving rod, and the right end surface of the moving plate is provided. A compression spring is fixedly provided in the space, the right end of the compression spring is connected to the right wall of the restricted space, and an elastic cord is fixedly connected to the left end surface of the moving plate, and the lower wall of the restricted space is connected. Is provided with an obstruction block space that opens upward, an obstruction block that can slide up and down in the obstruction block space is provided in the obstruction block space, and an elastic spring is fixed to the lower end surface of the obstruction block. The lower end of the elastic spring is connected to the lower wall of the obstruction block space, the drawstring is fixedly connected to the lower end surface of the obstruction block, and the magnetic force space is above the position limiting space. The automatic charging stop mechanism is provided on the right side of the magnetic space, and a conductive block is provided at the lower end in the magnetic space, and the conductive block is provided in the automatic charging stop mechanism. A plug that is electrically connected to the block is provided, the charging head can be fixed to the fixing plate, the charging head can be connected so that the plug can be energized, and a fixing block is provided at the lower end of the magnetic space. The fixed block and the conductive block are connected so as to be energized by an energizing coil, the energizing coil is wound around the fixed block, and both the left and right walls are opened inward at the upper end of the magnetic force space. A moving groove is formed, and a moving magnetic block that can slide up and down in the magnetic space is provided at the upper end of the magnetic space, and the left and right end faces of the moving magnetic block are fixedly connected to each of the two moving blocks. A pressure spring is fixedly provided on the lower end surfaces of the two moving blocks, the lower end of the pressure spring is connected to the lower wall of the moving groove, and the upper end surface of the moving block on the left side is elastic. One end of the string is fixedly connected, and a convex block is fixedly provided in the lower right portion of the moving magnetic force block.

更の技術プラン、前記磁力空間の中間において右側には通電空間が設けられ、前記通電空間の中において右端には固定通電ブロックが固定的に設けられ、前記固定通電ブロックの右端面には外部の通電線が通電できるように連結され、前記通電空間の左端には前記通電空間の中で左右にスライドできる移動通電ブロックが設けられ、前記移動通電ブロックの左端面には押し棒が固定的に設けられ、前記押し棒の左端が前記磁力空間の中に延びており、前記移動通電ブロックの左端面には復帰ばねが固定的に設けられ、前記復帰ばねの左端が前記通電空間の左壁と連結され、前記移動通電ブロックの左端面には電線が通電できるように連結されている。 Further technical plan, an energizing space is provided on the right side in the middle of the magnetic space, a fixed energizing block is fixedly provided at the right end in the energizing space, and an external is provided on the right end surface of the fixed energizing block. The energizing lines are connected so that they can be energized, a moving energizing block that can slide left and right in the energizing space is provided at the left end of the energizing space, and a push rod is fixedly provided on the left end surface of the moving energizing block. The left end of the push rod extends into the magnetic space, a return spring is fixedly provided on the left end surface of the moving energization block, and the left end of the return spring is connected to the left wall of the energization space. Then, an electric wire is connected to the left end surface of the mobile energization block so that the electric wire can be energized.

更の技術プラン、前記伝動機構は、前記伝動空間の右壁に固定されたモーターを含み、前記モーターの右端には前記電線が通電できるように連結され、前記モーターの左端には伝動軸が伝動できるように連結され、前記伝動軸の左端が前記伝動空間の左壁と回転できるように連結され、前記伝動軸の右端には駆動プーリーが設けられ、前記駆動プーリーにはベルトが連結され、前記伝動軸の左端には第一カムが摩擦できるように設けられ、前記伝動空間の下壁には上方に開口した押しブロック空間が設けられ、前記押しブロック空間の中には前記押しブロック空間の中で上下にスライドできる押しブロックが設けられ、前記押しブロックの下端面には支持ばねが固定的に設けられ、前記支持ばねの下端が前記押しブロック空間の下壁と連結され、前記押しブロックの右端面には前記引き紐が固定的に連結されている。 Further technical plan, the transmission mechanism includes a motor fixed to the right wall of the transmission space, is connected to the right end of the motor so that the electric wire can be energized, and a transmission shaft is transmitted to the left end of the motor. The left end of the transmission shaft is rotatably connected to the left wall of the transmission space, a drive pulley is provided at the right end of the transmission shaft, and a belt is connected to the drive pulley. A first cam is provided at the left end of the transmission shaft so that the first cam can rub against it, a push block space opened upward is provided on the lower wall of the transmission space, and the push block space is inside the push block space. A push block that can slide up and down is provided, a support spring is fixedly provided on the lower end surface of the push block, the lower end of the support spring is connected to the lower wall of the push block space, and the right end of the push block. The pull string is fixedly connected to the surface.

更の技術プラン、前記冷却機構は、前記伝動空間の下側に位置し且つ左方に開口した放熱口を含み、前記放熱口の右壁にはファン軸が回転できるように設けられ、前記ファン軸の右端には従動プーリーが設けられ、前記従動プーリーと前記駆動プーリーが前記ベルトによって連結され、前記ファン軸の左端には二枚の羽根が設けられ、前記伝動軸の左端には第二カムが設けられ、前記蓄電池空間の中には蓄電池が設けられ、前記蓄電池が前記導電ブロックと導線によって連結され、前記伝動空間の下壁には前記蓄電池を囲んだ冷却管路が設けられ、前記冷却管路の左端には前記放熱口の中に位置する湾曲管が設けられ、前記湾曲管の右端が前記冷却管路の右端を貫通し且つ前記冷却管路の右端と連通しており、前記冷却管路の右上部分には前記冷却管路の中で上下にスライドできるピストン板が設けられ、前記ピストン板の上端面には前記伝動空間の中に延びたプッシュロッドが固定的に設けられ、前記プッシュロッドの上端面にはプッシュプレートが固定的に設けられ、前記プッシュプレートの下端面には弾性ばねが固定的に設けられ、前記弾性ばねの下端が前記伝動空間の下壁と連結され、前記湾曲管の右端において上壁には下方に開口したスライド空間が設けられ、前記スライド空間の中には前記スライド空間の中で左右にスライドできるスライドブロックが設けられ、前記スライドブロックの右端面には伸縮ばねが固定的に設けられ、前記伸縮ばねの右端が前記スライド空間の右壁と連結され、前記スライドブロックの下端面には直角棒が固定的に設けられ、前記直角棒の右端面には前記湾曲管の右端の中で左右にスライドできるスライド板が固定的に設けられている。 Further technical plan, the cooling mechanism includes a heat radiation port located below the transmission space and opened to the left, and the right wall of the heat radiation port is provided so that a fan shaft can rotate. A driven pulley is provided at the right end of the shaft, the driven pulley and the drive pulley are connected by the belt, two blades are provided at the left end of the fan shaft, and a second cam is provided at the left end of the transmission shaft. Is provided, a storage battery is provided in the storage battery space, the storage battery is connected to the conductive block by a conducting wire, and a cooling pipeline surrounding the storage battery is provided on the lower wall of the transmission space to cool the storage battery. A curved pipe located in the heat radiation port is provided at the left end of the pipeline, and the right end of the curved pipe penetrates the right end of the cooling pipeline and communicates with the right end of the cooling pipeline. A piston plate that can slide up and down in the cooling pipeline is provided in the upper right portion of the pipeline, and a push rod extending into the transmission space is fixedly provided on the upper end surface of the piston plate. A push plate is fixedly provided on the upper end surface of the push rod, an elastic spring is fixedly provided on the lower end surface of the push plate, and the lower end of the elastic spring is connected to the lower wall of the transmission space. At the right end of the curved tube, a slide space that opens downward is provided on the upper wall, a slide block that can slide left and right in the slide space is provided in the slide space, and a slide block that can slide left and right in the slide space is provided on the right end surface of the slide block. A telescopic spring is fixedly provided, the right end of the telescopic spring is connected to the right wall of the slide space, a right angle rod is fixedly provided on the lower end surface of the slide block, and the right end surface of the right end surface of the right end surface. A slide plate that can slide left and right in the right end of the curved tube is fixedly provided.

更の技術プラン、前記圧縮ばねの弾力は、前記移動板と前記移動棒が前記制限空間の中でスライドするときに受けた摩擦力の和より大きい。 Further technical plan, the elasticity of the compression spring is larger than the sum of the frictional forces received when the moving plate and the moving rod slide in the restricted space.

更の技術プラン、前記弾性ばねの弾力は、前記ピストン板が前記冷却管路の中でスライドするときに受けた摩擦力より大きい。 Further technical plan, the elasticity of the elastic spring is greater than the frictional force received when the piston plate slides in the cooling conduit.

本願発明は、構造と操作が簡単であり、電動スクーターを充電するとき、蓄電池に対して一定程度の放熱冷却処理を行い、電動スクーターをフル充電した後、充電器を適時に電源から外し、蓄電池を長時間充電することによる危険の発生を避ける。 The present invention has a simple structure and operation. When charging an electric scooter, the storage battery is subjected to a certain degree of heat dissipation cooling treatment, the electric scooter is fully charged, and then the charger is timely removed from the power source to remove the storage battery. Avoid the danger of charging the battery for a long time.

下記に図1〜4をあわせて本願発明について詳しく説明し、便利に説明するために、下記の方向を以下のように規定する:図1は本願発明装置の正面図であり、以下に述べる上下左右前後の方向と図1の自身投影関係の上下左右前後の方向とが一致である。 In order to explain the invention of the present application in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

図1は本願発明の構成略図FIG. 1 is a schematic configuration of the present invention. 図2は図1のAの構成略図FIG. 2 is a schematic configuration diagram of A in FIG. 図3は図1のBの構成略図FIG. 3 is a schematic configuration of B in FIG. 図4は図2のC―Cの構成略図FIG. 4 is a schematic configuration diagram of CC of FIG.

図1〜4を参照し、本願発明である電動スクーター充電用の自動的に充電を止めることができる設備は、本体10を含み、前記本体10の中において上端には伝動空間34が設けられ、前記本体10の中において左端には蓄電池空間27が設けられ、前記伝動空間34の中には本願発明に動力を提供する伝動機構70が設けられ、前記蓄電池空間27の中には蓄電池25を冷却する冷却機構71が設けられ、前記本体10の中において右端には自動的にプラグを抜ける自動充電停止機構75が設けられ、前記自動充電停止機構75は前記本体10の中において右下にある制限空間11を含み、前記制限空間11の中には前記制限空間11の中で左右にスライドできる移動板16が設けられ、前記移動板16の右端面には移動棒59が固定的に設けられ、前記移動棒59の右端が前記制限空間11の右壁から延びており、前記移動棒59の右上面には固定板58が固定的に設けられ、前記移動板16の右端面には圧縮ばね60が固定的に設けられ、前記圧縮ばね60の右端が前記制限空間11の右壁と連結され、前記移動板16の左端面には弾性紐40が固定的に連結され、前記制限空間11の下壁には上方に開口した妨害ブロック空間14が設けられ、前記妨害ブロック空間14の中には前記妨害ブロック空間14の中で上下にスライドできる妨害ブロック12が設けられ、前記妨害ブロック12の下端面には弾力ばね15が固定的に設けられ、前記弾力ばね15の下端が前記妨害ブロック空間14の下壁と連結され、前記妨害ブロック12の下端面には引き紐13が固定的に連結され、前記位置制限空間11の上側には磁力空間41が設けられ、前記磁力空間41の右側には右方に開口した前記自動充電停止機構75が設けられ、前記磁力空間41の中において下端には導電ブロック19が設けられ、前記自動充電停止機構75の中には前記導電ブロック19と通電可能に連結されたプラグ55が設けられ、前記固定板58に充電ヘッド56を固定でき、前記充電ヘッド56が前記プラグ55と通電できるように連結でき、前記磁力空間41の下端には固定ブロック57が設けられ、前記固定ブロック57と前記導電ブロック19とが通電コイル54によって通電できるように連結され、前記固定ブロック57には前記通電コイル54が巻きつけられており、前記磁力空間41の上端において左右壁にはいずれも内側へ開口した移動溝45が形成され、前記磁力空間41の上端には前記磁力空間41の中で上下にスライドできる移動磁力ブロック42が設けられ、前記移動磁力ブロック42の左右端面がそれぞれ二つの前記移動ブロック43と固定的に連結され、二つの前記移動ブロック43の下端面にはいずれも圧力ばね44が固定的に設けられ、前記圧力ばね44の下端が前記移動溝45の下壁と連結され、左側の前記移動ブロック43の上端面には前記弾性紐40の一端が固定的に連結され、前記移動磁力ブロック42の右下部分には凸ブロック46が固定的に設けられている。 With reference to FIGS. 1 to 4, the equipment capable of automatically stopping charging for charging the electric scooter according to the present invention includes the main body 10, and a transmission space 34 is provided at the upper end of the main body 10. A storage battery space 27 is provided at the left end in the main body 10, a transmission mechanism 70 for providing power to the present invention is provided in the transmission space 34, and the storage battery 25 is cooled in the storage battery space 27. A cooling mechanism 71 is provided, and an automatic charge stop mechanism 75 that automatically pulls out the plug is provided at the right end in the main body 10, and the automatic charge stop mechanism 75 is in the lower right part of the main body 10. A moving plate 16 that includes a space 11 and can slide left and right in the restricted space 11 is provided in the restricted space 11, and a moving rod 59 is fixedly provided on the right end surface of the moving plate 16. The right end of the moving rod 59 extends from the right wall of the restricted space 11, a fixing plate 58 is fixedly provided on the right upper surface of the moving rod 59, and a compression spring 60 is provided on the right end surface of the moving plate 16. Is fixedly provided, the right end of the compression spring 60 is connected to the right wall of the restricted space 11, and the elastic cord 40 is fixedly connected to the left end surface of the moving plate 16 under the restricted space 11. An obstruction block space 14 opened upward is provided on the wall, an obstruction block 12 that can slide up and down in the obstruction block space 14 is provided in the obstruction block space 14, and a lower end surface of the obstruction block 12 is provided. The elastic spring 15 is fixedly provided, the lower end of the elastic spring 15 is connected to the lower wall of the obstruction block space 14, and the drawstring 13 is fixedly connected to the lower end surface of the obstruction block 12. A magnetic space 41 is provided above the position limiting space 11, an automatic charging stop mechanism 75 opened to the right is provided on the right side of the magnetic space 41, and conductivity is provided at the lower end of the magnetic space 41. A block 19 is provided, and a plug 55 that is electrically connected to the conductive block 19 is provided in the automatic charging stop mechanism 75, and the charging head 56 can be fixed to the fixing plate 58. A fixed block 57 is provided at the lower end of the magnetic space 41 so that it can be energized with the plug 55, and the fixed block 57 and the conductive block 19 are connected so as to be energized by an energizing coil 54 and fixed. The energizing coil 54 is wound around the block 57, and both of the left and right walls are opened inward at the upper end of the magnetic space 41. A mouthed moving groove 45 is formed, and a moving magnetic force block 42 that can slide up and down in the magnetic force space 41 is provided at the upper end of the magnetic force space 41, and two left and right end faces of the moving magnetic force block 42 are moved. A pressure spring 44 is fixedly provided on each of the lower end surfaces of the two moving blocks 43, and the lower end of the pressure spring 44 is connected to the lower wall of the moving groove 45. One end of the elastic cord 40 is fixedly connected to the upper end surface of the moving block 43 on the left side, and a convex block 46 is fixedly provided on the lower right portion of the moving magnetic force block 42.

有益に、前記磁力空間41の中間において右側には通電空間53が設けられ、前記通電空間53の中において右端には固定通電ブロック52が固定的に設けられ、前記固定通電ブロック52の右端面には外部の通電線51が通電できるように連結され、前記通電空間53の左端には前記通電空間53の中で左右にスライドできる移動通電ブロック50が設けられ、前記移動通電ブロック50の左端面には押し棒49が固定的に設けられ、前記押し棒49の左端が前記磁力空間41の中に延びており、前記移動通電ブロック50の左端面には復帰ばね48が固定的に設けられ、前記復帰ばね48の左端が前記通電空間53の左壁と連結され、前記移動通電ブロック50の左端面には電線47が通電できるように連結されている。 Beneficially, an energizing space 53 is provided on the right side in the middle of the magnetic space 41, and a fixed energizing block 52 is fixedly provided at the right end in the energizing space 53, and is provided on the right end surface of the fixed energizing block 52. Is connected so that an external energizing line 51 can be energized, and a moving energizing block 50 that can slide left and right in the energizing space 53 is provided at the left end of the energizing space 53, and is provided on the left end surface of the moving energizing block 50. The push rod 49 is fixedly provided, the left end of the push rod 49 extends into the magnetic space 41, and the return spring 48 is fixedly provided on the left end surface of the moving energization block 50. The left end of the return spring 48 is connected to the left wall of the energization space 53, and the electric wire 47 is connected to the left end surface of the mobile energization block 50 so that the electric wire 47 can be energized.

有益に、前記伝動機構70は、前記伝動空間34の右壁に固定されたモーター39を含み、前記モーター39の右端には前記電線47が通電できるように連結され、前記モーター39の左端には伝動軸33が伝動できるように連結され、前記伝動軸33の左端が前記伝動空間34の左壁と回転できるように連結され、前記伝動軸33の右端には駆動プーリー37が設けられ、前記駆動プーリー37にはベルト38が連結され、前記伝動軸33の左端には第一カム66が摩擦できるように設けられ、前記伝動空間34の下壁には上方に開口した押しブロック空間64が設けられ、前記押しブロック空間64の中には前記押しブロック空間64の中で上下にスライドできる押しブロック65が設けられ、前記押しブロック65の下端面には支持ばね67が固定的に設けられ、前記支持ばね67の下端が前記押しブロック空間64の下壁と連結され、前記押しブロック65の右端面には前記引き紐13が固定的に連結されている。 Beneficially, the transmission mechanism 70 includes a motor 39 fixed to the right wall of the transmission space 34, is connected to the right end of the motor 39 so that the electric wire 47 can be energized, and is connected to the left end of the motor 39. The transmission shaft 33 is connected so as to be able to transmit, the left end of the transmission shaft 33 is connected so as to be rotatable with the left wall of the transmission space 34, and a drive pulley 37 is provided at the right end of the transmission shaft 33 to drive the drive. A belt 38 is connected to the pulley 37, a first cam 66 is provided at the left end of the transmission shaft 33 so that the first cam 66 can rub against the pulley 37, and a push block space 64 opened upward is provided on the lower wall of the transmission space 34. A push block 65 that can slide up and down in the push block space 64 is provided in the push block space 64, and a support spring 67 is fixedly provided on the lower end surface of the push block 65 to support the push block 65. The lower end of the spring 67 is connected to the lower wall of the push block space 64, and the pull string 13 is fixedly connected to the right end surface of the push block 65.

有益に、前記冷却機構71は、前記伝動空間34の下側に位置し且つ左方に開口した放熱口28を含み、前記放熱口28の右壁にはファン軸23が回転できるように設けられ、前記ファン軸23の右端には従動プーリー21が設けられ、前記従動プーリー21と前記駆動プーリー37が前記ベルト38によって連結され、前記ファン軸23の左端には二枚の羽根24が設けられ、前記伝動軸33の左端には第二カム36が設けられ、前記蓄電池空間27の中には蓄電池25が設けられ、前記蓄電池25が前記導電ブロック19と導線20によって連結され、前記伝動空間34の下壁には前記蓄電池25を囲んだ冷却管路26が設けられ、前記冷却管路26の左端には前記放熱口28の中に位置する湾曲管29が設けられ、前記湾曲管29の右端が前記冷却管路26の右端を貫通し且つ前記冷却管路26の右端と連通しており、前記冷却管路26の右上部分には前記冷却管路26の中で上下にスライドできるピストン板30が設けられ、前記ピストン板30の上端面には前記伝動空間34の中に延びたプッシュロッド32が固定的に設けられ、前記プッシュロッド32の上端面にはプッシュプレート35が固定的に設けられ、前記プッシュプレート35の下端面には弾性ばね31が固定的に設けられ、前記弾性ばね31の下端が前記伝動空間34の下壁と連結され、前記湾曲管29の右端において上壁には下方に開口したスライド空間73が設けられ、前記スライド空間73の中には前記スライド空間73の中で左右にスライドできるスライドブロック61が設けられ、前記スライドブロック61の右端面には伸縮ばね62が固定的に設けられ、前記伸縮ばね62の右端が前記スライド空間73の右壁と連結され、前記スライドブロック61の下端面には直角棒74が固定的に設けられ、前記直角棒74の右端面には前記湾曲管29の右端の中で左右にスライドできるスライド板63が固定的に設けられている。 Beneficially, the cooling mechanism 71 includes a heat radiation port 28 located below the transmission space 34 and opened to the left, and is provided on the right wall of the heat radiation port 28 so that the fan shaft 23 can rotate. A driven pulley 21 is provided at the right end of the fan shaft 23, the driven pulley 21 and the drive pulley 37 are connected by the belt 38, and two blades 24 are provided at the left end of the fan shaft 23. A second cam 36 is provided at the left end of the transmission shaft 33, a storage battery 25 is provided in the storage battery space 27, and the storage battery 25 is connected to the conductive block 19 by a lead wire 20 to form a transmission space 34. A cooling pipe 26 surrounding the storage battery 25 is provided on the lower wall, a curved pipe 29 located in the heat radiation port 28 is provided at the left end of the cooling pipe 26, and the right end of the curved pipe 29 is provided. A piston plate 30 that penetrates the right end of the cooling pipe 26 and communicates with the right end of the cooling pipe 26, and can slide up and down in the cooling pipe 26 is located in the upper right portion of the cooling pipe 26. A push rod 32 extending into the transmission space 34 is fixedly provided on the upper end surface of the piston plate 30, and a push plate 35 is fixedly provided on the upper end surface of the push rod 32. An elastic spring 31 is fixedly provided on the lower end surface of the push plate 35, the lower end of the elastic spring 31 is connected to the lower wall of the transmission space 34, and the lower end of the curved pipe 29 is downward on the upper wall. An open slide space 73 is provided, a slide block 61 that can slide left and right in the slide space 73 is provided in the slide space 73, and a telescopic spring 62 is fixed to the right end surface of the slide block 61. The right end of the telescopic spring 62 is connected to the right wall of the slide space 73, a right angle rod 74 is fixedly provided on the lower end surface of the slide block 61, and the right end surface of the right end surface of the right end surface of the slide block 61 is fixedly provided. A slide plate 63 that can slide left and right in the right end of the curved pipe 29 is fixedly provided.

有益に、前記圧縮ばね60の弾力は、前記移動板16と前記移動棒59が前記制限空間11の中でスライドするときに受けた摩擦力の和より大きい。 Beneficially, the elasticity of the compression spring 60 is greater than the sum of the frictional forces received when the moving plate 16 and the moving rod 59 slide in the restricted space 11.

有益に、前記弾性ばね31の弾力は、前記ピストン板30が前記冷却管路26の中でスライドするときに受けた摩擦力より大きい。 Advantageously, the elasticity of the elastic spring 31 is greater than the frictional force received when the piston plate 30 slides in the cooling conduit 26.

初期状態に、二本の前記圧力ばね44の弾力により前記移動磁力ブロック42が前記磁力空間41の上側に位置し、前記移動磁力ブロック42が前記固定ブロック57から離れており、前記復帰ばね48の作用により前記移動通電ブロック50が前記通電空間53の中の右端に位置し、前記移動通電ブロック50が前記固定通電ブロック52から離れている。 In the initial state, the moving magnetic force block 42 is located above the magnetic force space 41 due to the elasticity of the two pressure springs 44, the moving magnetic force block 42 is separated from the fixed block 57, and the return spring 48 By the action, the mobile energization block 50 is located at the right end in the energization space 53, and the mobile energization block 50 is separated from the fixed energization block 52.

充電しようとするとき、充電ヘッド56を固定板58に固定し、そして手で固定板58を押すことで充電ヘッド56をプラグ55と通電できるように連結させ、移動棒59の左端にある移動板16が妨害ブロック12の左側まで移動し妨害ブロック12に止められ、これで充電ヘッド56とプラグ55の接触状態が終始維持され、充電ヘッド56がプラグ55と通電した後、充電ヘッド56から送ってきた電流が導電ブロック19と導線20を経由して蓄電池25を充電し、充電時に導電ブロック19を通る電流が大きいので、導電ブロック19の中から通電コイル54へ流れる電流も大きく、固定ブロック57によって生み出された磁力も大きく、移動磁力ブロック42が固定ブロック57の磁力によって吸引されて降下し、そして凸ブロック46が連動し押し棒49を右方へ押し動かし、移動通電ブロック50が押し棒49の推力によって右方へ移動し固定通電ブロック52と接触し、モーター39が電源と接続されて作動し、モーター39の作動により伝動軸33が回転し駆動プーリー37と第一カム66と第二カム36を回転させ、駆動プーリー37とベルト38によって連結された従動プーリー21が駆動プーリー37の回転により駆動されて回転し、そしてファン軸23と二枚の羽根24が連動し回転し、これで湾曲管29の中の冷却液に対する空気冷却が行われ、第一カム66の回転により押しブロック65が下方へ押し動かされ、引き紐13が緩み、引き紐13の牽引力を失った妨害ブロック12が弾力ばね15の弾力により妨害ブロック空間14の上端に位置するため、移動板16が止められ、第一カム66の回転により押しブロック65を押しブロック空間64の中まで押し動かした後、第一カム66が妨害ブロック65に止められて回転できなくなって伝動軸33でスライドし、第二カム36が間欠的にプッシュプレート35を下方へ押し動かし、プッシュプレート35の降下によりピストン板30が駆動されて下方へ移動し冷却管路26の中の冷却液を押し動かし、湾曲管29の中に流れ込んだ冷却液が羽根24によって生成された風によって冷却され、湾曲管29の中の冷却液がピストン板30によって押し動かされて流れることで、スライドブロック61とスライド板63が押し動かされて右方へ移動し、冷却後の冷却液が改めて冷却管路26の中に入り、これで冷却液の循環冷却が実現される。
充電後、導電ブロック19を流れる電流が小さくなり、固定ブロック57が移動磁力ブロック42に与える磁力も小さくなり、移動通電ブロック42が二本の圧力ばね44に引かれて上方へ移動し、凸ブロック46が押し棒49を押さなくなり、移動通電ブロック50が復帰ばね48の牽引力によって右方へ移動し固定通電ブロック52と離脱し、モーター39が停電し作動しなくなり、第一カム66が押しブロック65を押さなくなり、押しブロック65が支持ばね67の弾力によって上方へ移動し元の位置に戻り、引き紐13が引き締められ、妨害ブロック12が引き紐13の牽引力により下方へ移動し移動板16を止めなくなり、移動板16と移動棒59が妨害ブロック12の妨害を失って圧縮ばね60の牽引力により右方へ移動し、そして移動棒59と充電ヘッド56が連動し右方へ移動し、充電ヘッド56がプラグ55の中から離れ、ここで充電停止になる。 When attempting to charge, the charging head 56 is fixed to the fixing plate 58, and by pushing the fixing plate 58 by hand, the charging head 56 is connected to the plug 55 so as to be energized, and the moving plate at the left end of the moving rod 59 is connected. 16 moves to the left side of the obstruction block 12 and is stopped by the obstruction block 12, whereby the contact state between the charging head 56 and the plug 55 is maintained from beginning to end, and after the charging head 56 energizes the plug 55, it is sent from the charging head 56. The current flows through the conductive block 19 and the conducting wire 20 to charge the storage battery 25, and the current passing through the conductive block 19 during charging is large. Therefore, the current flowing from the conductive block 19 to the energizing coil 54 is also large, and the fixed block 57 causes the current to flow. The generated magnetic force is also large, the moving magnetic block 42 is attracted by the magnetic force of the fixed block 57 and descends, and the convex block 46 interlocks to push the push rod 49 to the right, and the moving energizing block 50 moves the push rod 49. It moves to the right by thrust and comes into contact with the fixed current block 52, the motor 39 is connected to the power supply and operates, and the transmission shaft 33 rotates due to the operation of the motor 39, and the drive pulley 37, the first cam 66, and the second cam 36 The driven pulley 27 and the driven pulley 21 connected by the belt 38 are driven and rotated by the rotation of the drive pulley 37, and the fan shaft 23 and the two blades 24 are interlocked and rotated, whereby the curved pipe is formed. Air cooling is performed on the coolant in 29, the push block 65 is pushed downward by the rotation of the first cam 66, the pull string 13 is loosened, and the obstruction block 12 which has lost the traction force of the pull string 13 is an elastic spring. Since it is located at the upper end of the obstruction block space 14 due to the elasticity of 15, the moving plate 16 is stopped, and after the push block 65 is pushed and moved into the block space 64 by the rotation of the first cam 66, the first cam 66 is moved. Stopped by the obstruction block 65 and unable to rotate, it slides on the transmission shaft 33, the second cam 36 intermittently pushes the push plate 35 downward, and the lowering of the push plate 35 drives the piston plate 30 downward. It moves and pushes the coolant in the cooling pipe 26, the coolant flowing into the curved pipe 29 is cooled by the wind generated by the blades 24, and the coolant in the curved pipe 29 is cooled by the piston plate 30. By being pushed and flowing, the slide block 61 and the slide plate 63 are pushed and moved to the right, and the cooled coolant enters the cooling conductor 26 again, whereby the circulating cooling of the coolant is performed. Realized To.
After charging, the current flowing through the conductive block 19 becomes smaller, the magnetic force applied to the moving magnetic force block 42 by the fixed block 57 also becomes smaller, the moving energizing block 42 is pulled by the two pressure springs 44 and moves upward, and the convex block 46 does not push the push rod 49, the moving energizing block 50 moves to the right by the traction force of the return spring 48 and separates from the fixed energizing block 52, the motor 39 fails to operate, and the first cam 66 pushes the block 65. The push block 65 moves upward by the elasticity of the support spring 67 and returns to the original position, the pull string 13 is tightened, and the obstruction block 12 moves downward by the pulling force of the pull string 13 to stop the moving plate 16. The moving plate 16 and the moving rod 59 lose the obstruction of the obstruction block 12 and move to the right by the traction force of the compression spring 60, and the moving rod 59 and the charging head 56 move to the right in conjunction with each other, and the charging head 56 Moves away from the plug 55 and stops charging here.

以上に述べたのはただ本願発明の具体的な実施方式で、本願発明の保護範囲はここに限らないである。全部の創造的な労働を通じなく思いついた変化と取替は本願発明の保護範囲にカバーされる。だから本願発明の保護範囲は権利要求書が限定される保護範囲を標準とする。 The above is merely a specific embodiment of the present invention, and the scope of protection of the present invention is not limited to this. Changes and replacements that come to mind through all creative labor are covered by the scope of the invention of the present application. Therefore, the scope of protection of the present invention is based on the scope of protection in which the request for rights is limited.

本願発明は電動スクーター分野を取り上げて、具体的には電動スクーター充電用の自動的に充電を止めることができる設備である。 The present invention takes up the field of electric scooters, and specifically, is equipment for charging electric scooters that can automatically stop charging.

電動スクーターは、便利な交通手段でありながら、エコな交通手段でもあり、フル充電した電動スクーターは、長時間使用できるので、人々に好かれている。
現在では、電動スクーターを充電するとき、フル充電した電動スクーターに対して適時に充電を止めない場合が多く、安全性に影響し、また、充電時に蓄電池が熱くなり、蓄電池の使用寿命が縮まる。 Electric scooters are a convenient means of transportation, but they are also an eco-friendly means of transportation, and fully charged electric scooters can be used for a long time, so people like them.
Nowadays, when charging an electric scooter, it is often the case that the fully charged electric scooter is not stopped in a timely manner, which affects safety and also causes the storage battery to become hot during charging, shortening the service life of the storage battery.

中国特許出願公開第104410139号明細書Chinese Patent Application Publication No. 104410139

適時に充電器を外す機能の備える、電動スクーター充電用の自動的に充電を止めることができる設備を提供することで、適時に充電器を電源から外せない問題を解決することを目的とする。 The purpose is to solve the problem that the charger cannot be removed from the power supply in a timely manner by providing equipment that can automatically stop charging for charging the electric scooter, which has a function to remove the charger in a timely manner.

上記の課題を解決するため、本願発明は以下の技術プランを採用する:本願発明である電動スクーター充電用の自動的に充電を止めることができる設備は、本体を含み、前記本体の中において上端には伝動空間が設けられ、前記本体の中において左端には蓄電池空間が設けられ、前記伝動空間の中には本電動スクーター充電用の自動的に充電を止めることができる設備に動力を提供する伝動機構が設けられ、前記蓄電池空間の中には蓄電池を冷却する冷却機構が設けられ、前記本体の中において右端には自動的にプラグを抜ける自動充電停止機構が設けられ、
前記自動充電停止機構は前記本体の中において右下にある制限空間を含み、前記制限空間の中には前記制限空間の中で左右にスライドできる移動板が設けられ、前記移動板の右端面には移動棒が固定的に設けられ、前記移動棒の右端が前記制限空間の右壁から延びており、前記移動棒の右上面には固定板が固定的に設けられ、前記移動板の右端面には圧縮ばねが固定的に設けられ、前記圧縮ばねの右端が前記制限空間の右壁と連結され、前記移動板の左端面には弾性紐が固定的に連結され、前記制限空間の下壁には上方に開口した妨害ブロック空間が設けられ、前記妨害ブロック空間の中には前記妨害ブロック空間の中で上下にスライドできる妨害ブロックが設けられ、前記妨害ブロックの下端面には弾力ばねが固定的に設けられ、前記弾力ばねの下端が前記妨害ブロック空間の下壁と連結され、前記妨害ブロックの下端面には引き紐が固定的に連結され、前記制限空間の上側には磁力空間が設けられ、前記磁力空間の右側には右方に開口した前記自動充電停止機構が設けられ、前記磁力空間の中において下端には導電ブロックが設けられ、前記自動充電停止機構の中には前記導電ブロックと通電可能に連結されたプラグが設けられ、前記固定板に充電ヘッドを固定でき、前記充電ヘッドが前記プラグと通電できるように連結でき、前記磁力空間の下端には固定ブロックが設けられ、前記固定ブロックと前記導電ブロックとが通電コイルによって通電できるように連結され、前記固定ブロックには前記通電コイルが巻きつけられており、前記磁力空間の上端において左右壁にはいずれも内側へ開口した移動溝が形成され、前記磁力空間の上端には前記磁力空間の中で上下にスライドできる移動磁力ブロックが設けられ、前記移動磁力ブロックの左右端面がそれぞれ二つの移動ブロックと固定的に連結され、二つの前記移動ブロックの下端面にはいずれも圧力ばねが固定的に設けられ、前記圧力ばねの下端が前記移動溝の下壁と連結され、左側の前記移動ブロックの上端面には前記弾性紐の一端が固定的に連結され、前記移動磁力ブロックの右下部分には凸ブロックが固定的に設けられている。 In order to solve the above problems, the present invention adopts the following technical plan: The equipment for automatically stopping the charging of the electric scooter according to the present invention includes the main body and is the upper end in the main body. Is provided with a transmission space, a storage battery space is provided at the left end in the main body, and power is provided to equipment that can automatically stop charging for charging the electric scooter in the transmission space. A transmission mechanism is provided , a cooling mechanism for cooling the storage battery is provided in the storage battery space, and an automatic charging stop mechanism for automatically pulling out the plug is provided at the right end of the main body.
The automatic charging stop mechanism includes a restricted space at the lower right in the main body, and a moving plate that can slide left and right in the restricted space is provided in the restricted space, and a moving plate that can slide left and right in the restricted space is provided on the right end surface of the moving plate. Is fixedly provided with a moving rod, the right end of the moving rod extends from the right wall of the restricted space, and a fixed plate is fixedly provided on the upper right upper surface of the moving rod, and the right end surface of the moving plate is provided. A compression spring is fixedly provided in the space, the right end of the compression spring is connected to the right wall of the restricted space, and an elastic cord is fixedly connected to the left end surface of the moving plate, and the lower wall of the restricted space is connected. Is provided with an obstruction block space that opens upward, an obstruction block that can slide up and down in the obstruction block space is provided in the obstruction block space, and an elastic spring is fixed to the lower end surface of the obstruction block. The lower end of the elastic spring is connected to the lower wall of the obstruction block space, the drawstring is fixedly connected to the lower end surface of the obstruction block, and the magnetic force space is provided above the restricted space. The automatic charge stop mechanism opened to the right is provided on the right side of the magnetic force space, a conductive block is provided at the lower end in the magnetic force space, and the conductive block is provided in the automatic charge stop mechanism. A plug that is electrically connected to the plug is provided, the charging head can be fixed to the fixing plate, the charging head can be connected so that the plug can be energized, and a fixing block is provided at the lower end of the magnetic space. The fixed block and the conductive block are connected so as to be energized by an energizing coil, the energizing coil is wound around the fixed block, and movements that are open inward on the left and right walls at the upper end of the magnetic force space. A groove is formed, and a moving magnetic block that can slide up and down in the magnetic space is provided at the upper end of the magnetic space, and the left and right end faces of the moving magnetic block are fixedly connected to two moving blocks, respectively. A pressure spring is fixedly provided on the lower end surface of each of the moving blocks, the lower end of the pressure spring is connected to the lower wall of the moving groove, and the upper end surface of the moving block on the left side is of the elastic cord. One end is fixedly connected, and a convex block is fixedly provided in the lower right portion of the moving magnetic force block.

更の技術プラン、前記磁力空間の中間において右側には通電空間が設けられ、前記通電空間の中において右端には固定通電ブロックが固定的に設けられ、前記固定通電ブロックの右端面には外部の通電線が通電できるように連結され、前記通電空間の左端には前記通電空間の中で左右にスライドできる移動通電ブロックが設けられ、前記移動通電ブロックの左端面には押し棒が固定的に設けられ、前記押し棒の左端が前記磁力空間の中に延びており、前記移動通電ブロックの左端面には復帰ばねが固定的に設けられ、前記復帰ばねの左端が前記通電空間の左壁と連結され、前記移動通電ブロックの左端面には電線が通電できるように連結されている。 Further technical plan, an energizing space is provided on the right side in the middle of the magnetic space, a fixed energizing block is fixedly provided at the right end in the energizing space, and an external is provided on the right end surface of the fixed energizing block. The energizing lines are connected so that they can be energized, a moving energizing block that can slide left and right in the energizing space is provided at the left end of the energizing space, and a push rod is fixedly provided on the left end surface of the moving energizing block. The left end of the push rod extends into the magnetic space, a return spring is fixedly provided on the left end surface of the moving energization block, and the left end of the return spring is connected to the left wall of the energization space. Then, an electric wire is connected to the left end surface of the mobile energization block so that the electric wire can be energized.

更の技術プラン、前記伝動機構は、前記伝動空間の右壁に固定されたモーターを含み、前記モーターの右端には前記電線が通電できるように連結され、前記モーターの左端には伝動軸が伝動できるように連結され、前記伝動軸の左端が前記伝動空間の左壁と回転できるように連結され、前記伝動軸の右端には駆動プーリーが設けられ、前記駆動プーリーにはベルトが連結され、前記伝動軸の左端には第一カムが摩擦できるように設けられ、前記伝動空間の下壁には上方に開口した押しブロック空間が設けられ、前記押しブロック空間の中には前記押しブロック空間の中で上下にスライドできる押しブロックが設けられ、前記押しブロックの下端面には支持ばねが固定的に設けられ、前記支持ばねの下端が前記押しブロック空間の下壁と連結され、前記押しブロックの右端面には前記引き紐が固定的に連結されている。 Further technical plan, the transmission mechanism includes a motor fixed to the right wall of the transmission space, is connected to the right end of the motor so that the electric wire can be energized, and a transmission shaft is transmitted to the left end of the motor. The left end of the transmission shaft is rotatably connected to the left wall of the transmission space, a drive pulley is provided at the right end of the transmission shaft, and a belt is connected to the drive pulley. A first cam is provided at the left end of the transmission shaft so that the first cam can rub against it, a push block space opened upward is provided on the lower wall of the transmission space, and the push block space is inside the push block space. A push block that can slide up and down is provided, a support spring is fixedly provided on the lower end surface of the push block, the lower end of the support spring is connected to the lower wall of the push block space, and the right end of the push block. The pull string is fixedly connected to the surface.

更の技術プラン、前記冷却機構は、前記伝動空間の下側に位置し且つ左方に開口した放熱口を含み、前記放熱口の右壁にはファン軸が回転できるように設けられ、前記ファン軸の右端には従動プーリーが設けられ、前記従動プーリーと前記駆動プーリーが前記ベルトによって連結され、前記ファン軸の左端には二枚の羽根が設けられ、前記伝動軸の左端には第二カムが設けられ、前記蓄電池空間の中には蓄電池が設けられ、前記蓄電池が前記導電ブロックと導線によって連結され、前記伝動空間の下壁には前記蓄電池を囲んだ冷却管路が設けられ、前記冷却管路の左端には前記放熱口の中に位置する湾曲管が設けられ、前記湾曲管の右端が前記冷却管路の右端を貫通し且つ前記冷却管路の右端と連通しており、前記冷却管路の右上部分には前記冷却管路の中で上下にスライドできるピストン板が設けられ、前記ピストン板の上端面には前記伝動空間の中に延びたプッシュロッドが固定的に設けられ、前記プッシュロッドの上端面にはプッシュプレートが固定的に設けられ、前記プッシュプレートの下端面には弾性ばねが固定的に設けられ、前記弾性ばねの下端が前記伝動空間の下壁と連結され、前記湾曲管の右端において上壁には下方に開口したスライド空間が設けられ、前記スライド空間の中には前記スライド空間の中で左右にスライドできるスライドブロックが設けられ、前記スライドブロックの右端面には伸縮ばねが固定的に設けられ、前記伸縮ばねの右端が前記スライド空間の右壁と連結され、前記スライドブロックの下端面には直角棒が固定的に設けられ、前記直角棒の右端面には前記湾曲管の右端の中で左右にスライドできるスライド板が固定的に設けられている。 Further technical plan, the cooling mechanism includes a heat radiation port located below the transmission space and opened to the left, and the right wall of the heat radiation port is provided so that a fan shaft can rotate. A driven pulley is provided at the right end of the shaft, the driven pulley and the drive pulley are connected by the belt, two blades are provided at the left end of the fan shaft, and a second cam is provided at the left end of the transmission shaft. Is provided, a storage battery is provided in the storage battery space, the storage battery is connected to the conductive block by a conducting wire, and a cooling pipeline surrounding the storage battery is provided on the lower wall of the transmission space to cool the storage battery. A curved pipe located in the heat radiation port is provided at the left end of the pipeline, and the right end of the curved pipe penetrates the right end of the cooling pipeline and communicates with the right end of the cooling pipeline. A piston plate that can slide up and down in the cooling pipeline is provided in the upper right portion of the pipeline, and a push rod extending into the transmission space is fixedly provided on the upper end surface of the piston plate. A push plate is fixedly provided on the upper end surface of the push rod, an elastic spring is fixedly provided on the lower end surface of the push plate, and the lower end of the elastic spring is connected to the lower wall of the transmission space. At the right end of the curved tube, a slide space that opens downward is provided on the upper wall, a slide block that can slide left and right in the slide space is provided in the slide space, and a slide block that can slide left and right in the slide space is provided on the right end surface of the slide block. A telescopic spring is fixedly provided, the right end of the telescopic spring is connected to the right wall of the slide space, a right angle rod is fixedly provided on the lower end surface of the slide block, and the right end surface of the right end surface of the right end surface. A slide plate that can slide left and right in the right end of the curved tube is fixedly provided.

更の技術プラン、前記圧縮ばねの弾力は、前記移動板と前記移動棒が前記制限空間の中でスライドするときに受けた摩擦力の和より大きい。 Further technical plan, the elasticity of the compression spring is larger than the sum of the frictional forces received when the moving plate and the moving rod slide in the restricted space.

更の技術プラン、前記弾性ばねの弾力は、前記ピストン板が前記冷却管路の中でスライドするときに受けた摩擦力より大きい。 Further technical plan, the elasticity of the elastic spring is greater than the frictional force received when the piston plate slides in the cooling conduit.

本願発明は、構造と操作が簡単であり、電動スクーターを充電するとき、蓄電池に対して一定程度の放熱冷却処理を行い、電動スクーターをフル充電した後、充電器を適時に電源から外し、蓄電池を長時間充電することによる危険の発生を避ける。 The present invention has a simple structure and operation. When charging an electric scooter, the storage battery is subjected to a certain degree of heat dissipation cooling treatment, the electric scooter is fully charged, and then the charger is timely removed from the power source to remove the storage battery. Avoid the danger of charging the battery for a long time.

下記に図1〜4をあわせて本願発明について詳しく説明し、便利に説明するために、下記の方向を以下のように規定する:図1は本願発明装置の正面図であり、以下に述べる上下左右前後の方向と図1の自身投影関係の上下左右前後の方向とが一致である。 In order to explain the invention of the present application in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

図1は本願発明の構成略図FIG. 1 is a schematic configuration of the present invention. 図2は図1のAの構成略図FIG. 2 is a schematic configuration diagram of A in FIG. 図3は図1のBの構成略図FIG. 3 is a schematic configuration of B in FIG. 図4は図2のC―Cの構成略図FIG. 4 is a schematic configuration diagram of CC of FIG.

図1〜4を参照し、本願発明である電動スクーター充電用の自動的に充電を止めることができる設備は、本体10を含み、前記本体10の中において上端には伝動空間34が設けられ、前記本体10の中において左端には蓄電池空間27が設けられ、前記伝動空間34の中には本電動スクーター充電用の自動的に充電を止めることができる設備に動力を提供する伝動機構70が設けられ、前記蓄電池空間27の中には蓄電池25を冷却する冷却機構71が設けられ、前記本体10の中において右端には自動的にプラグを抜ける自動充電停止機構75が設けられ、前記自動充電停止機構75は前記本体10の中において右下にある制限空間11を含み、前記制限空間11の中には前記制限空間11の中で左右にスライドできる移動板16が設けられ、前記移動板16の右端面には移動棒59が固定的に設けられ、前記移動棒59の右端が前記制限空間11の右壁から延びており、前記移動棒59の右上面には固定板58が固定的に設けられ、前記移動板16の右端面には圧縮ばね60が固定的に設けられ、前記圧縮ばね60の右端が前記制限空間11の右壁と連結され、前記移動板16の左端面には弾性紐40が固定的に連結され、前記制限空間11の下壁には上方に開口した妨害ブロック空間14が設けられ、前記妨害ブロック空間14の中には前記妨害ブロック空間14の中で上下にスライドできる妨害ブロック12が設けられ、前記妨害ブロック12の下端面には弾力ばね15が固定的に設けられ、前記弾力ばね15の下端が前記妨害ブロック空間14の下壁と連結され、前記妨害ブロック12の下端面には引き紐13が固定的に連結され、前記制限空間11の上側には磁力空間41が設けられ、前記磁力空間41の右側には右方に開口した前記自動充電停止機構75が設けられ、前記磁力空間41の中において下端には導電ブロック19が設けられ、前記自動充電停止機構75の中には前記導電ブロック19と通電可能に連結されたプラグ55が設けられ、前記固定板58に充電ヘッド56を固定でき、前記充電ヘッド56が前記プラグ55と通電できるように連結でき、前記磁力空間41の下端には固定ブロック57が設けられ、前記固定ブロック57と前記導電ブロック19とが通電コイル54によって通電できるように連結され、前記固定ブロック57には前記通電コイル54が巻きつけられており、前記磁力空間41の上端において左右壁にはいずれも内側へ開口した移動溝45が形成され、前記磁力空間41の上端には前記磁力空間41の中で上下にスライドできる移動磁力ブロック42が設けられ、前記移動磁力ブロック42の左右端面がそれぞれ二つの移動ブロック43と固定的に連結され、二つの前記移動ブロック43の下端面にはいずれも圧力ばね44が固定的に設けられ、前記圧力ばね44の下端が前記移動溝45の下壁と連結され、左側の前記移動ブロック43の上端面には前記弾性紐40の一端が固定的に連結され、前記移動磁力ブロック42の右下部分には凸ブロック46が固定的に設けられている。 With reference to FIGS. 1 to 4, the equipment for automatically stopping the charging of the electric scooter according to the present invention includes the main body 10, and a transmission space 34 is provided at the upper end of the main body 10. A storage battery space 27 is provided at the left end of the main body 10, and a transmission mechanism 70 for providing power to equipment capable of automatically stopping charging for charging the electric scooter is provided in the transmission space 34. is, the cooling mechanism 71 for cooling the battery 25 is provided in the accumulator space 27, automatically automatic charge stop mechanism 75 exiting the plug is provided on the right end in inside of the main body 10, the automatic stop charging The mechanism 75 includes a restricted space 11 at the lower right in the main body 10, and a moving plate 16 that can slide left and right in the restricted space 11 is provided in the restricted space 11, and the moving plate 16 A moving rod 59 is fixedly provided on the right end surface, the right end of the moving rod 59 extends from the right wall of the restricted space 11, and a fixing plate 58 is fixedly provided on the right upper surface of the moving rod 59. A compression spring 60 is fixedly provided on the right end surface of the moving plate 16, the right end of the compression spring 60 is connected to the right wall of the restricted space 11, and an elastic cord is attached to the left end surface of the moving plate 16. 40s are fixedly connected, an obstruction block space 14 opened upward is provided on the lower wall of the restriction space 11, and the obstruction block space 14 can be slid up and down in the obstruction block space 14. An obstruction block 12 is provided, an elastic spring 15 is fixedly provided on the lower end surface of the obstruction block 12, and the lower end of the elastic spring 15 is connected to the lower wall of the obstruction block space 14, and the obstruction block 12 is connected. A drawstring 13 is fixedly connected to the lower end surface, a magnetic force space 41 is provided above the restricted space 11, and the automatic charging stop mechanism 75 opened to the right is provided on the right side of the magnetic force space 41. A conductive block 19 is provided at the lower end in the magnetic space 41, and a plug 55 electrically connected to the conductive block 19 is provided in the automatic charging stop mechanism 75, and the fixing plate 58 is provided. The charging head 56 can be fixed to, the charging head 56 can be connected to the plug 55 so as to be energized, a fixed block 57 is provided at the lower end of the magnetic space 41, and the fixed block 57 and the conductive block 19 are connected to each other. The energizing coil 54 is connected so as to be energized by the energizing coil 54, and the energizing coil 54 is wound around the fixed block 57. At the upper end of the space 41, moving grooves 45 that are open inward are formed on the left and right walls, and at the upper end of the magnetic force space 41, a moving magnetic force block 42 that can slide up and down in the magnetic force space 41 is provided. moving the right and left end faces of the magnetic blocks 42 are fixedly connected with two of the moving block 43, respectively, both the lower end surfaces of the two said moving block 43 is a pressure spring 44 fixedly provided, the lower end of the pressure spring 44 Is connected to the lower wall of the moving groove 45, one end of the elastic cord 40 is fixedly connected to the upper end surface of the moving block 43 on the left side, and a convex block 46 is connected to the lower right portion of the moving magnetic force block 42. Is fixedly provided.

有益に、前記磁力空間41の中間において右側には通電空間53が設けられ、前記通電空間53の中において右端には固定通電ブロック52が固定的に設けられ、前記固定通電ブロック52の右端面には外部の通電線51が通電できるように連結され、前記通電空間53の左端には前記通電空間53の中で左右にスライドできる移動通電ブロック50が設けられ、前記移動通電ブロック50の左端面には押し棒49が固定的に設けられ、前記押し棒49の左端が前記磁力空間41の中に延びており、前記移動通電ブロック50の左端面には復帰ばね48が固定的に設けられ、前記復帰ばね48の左端が前記通電空間53の左壁と連結され、前記移動通電ブロック50の左端面には電線47が通電できるように連結されている。 Beneficially, an energizing space 53 is provided on the right side in the middle of the magnetic space 41, and a fixed energizing block 52 is fixedly provided at the right end in the energizing space 53, and is provided on the right end surface of the fixed energizing block 52. Is connected so that an external energizing line 51 can be energized, and a moving energizing block 50 that can slide left and right in the energizing space 53 is provided at the left end of the energizing space 53, and is provided on the left end surface of the moving energizing block 50. The push rod 49 is fixedly provided, the left end of the push rod 49 extends into the magnetic space 41, and the return spring 48 is fixedly provided on the left end surface of the moving energization block 50. The left end of the return spring 48 is connected to the left wall of the energization space 53, and the electric wire 47 is connected to the left end surface of the mobile energization block 50 so that the electric wire 47 can be energized.

有益に、前記伝動機構70は、前記伝動空間34の右壁に固定されたモーター39を含み、前記モーター39の右端には前記電線47が通電できるように連結され、前記モーター39の左端には伝動軸33が伝動できるように連結され、前記伝動軸33の左端が前記伝動空間34の左壁と回転できるように連結され、前記伝動軸33の右端には駆動プーリー37が設けられ、前記駆動プーリー37にはベルト38が連結され、前記伝動軸33の左端には第一カム66が摩擦できるように設けられ、前記伝動空間34の下壁には上方に開口した押しブロック空間64が設けられ、前記押しブロック空間64の中には前記押しブロック空間64の中で上下にスライドできる押しブロック65が設けられ、前記押しブロック65の下端面には支持ばね67が固定的に設けられ、前記支持ばね67の下端が前記押しブロック空間64の下壁と連結され、前記押しブロック65の右端面には前記引き紐13が固定的に連結されている。 Beneficially, the transmission mechanism 70 includes a motor 39 fixed to the right wall of the transmission space 34, is connected to the right end of the motor 39 so that the electric wire 47 can be energized, and is connected to the left end of the motor 39. The transmission shaft 33 is connected so as to be able to transmit, the left end of the transmission shaft 33 is connected so as to be rotatable with the left wall of the transmission space 34, and a drive pulley 37 is provided at the right end of the transmission shaft 33 to drive the drive. A belt 38 is connected to the pulley 37, a first cam 66 is provided at the left end of the transmission shaft 33 so that the first cam 66 can rub against the pulley 37, and a push block space 64 opened upward is provided on the lower wall of the transmission space 34. A push block 65 that can slide up and down in the push block space 64 is provided in the push block space 64, and a support spring 67 is fixedly provided on the lower end surface of the push block 65 to support the push block 65. The lower end of the spring 67 is connected to the lower wall of the push block space 64, and the pull string 13 is fixedly connected to the right end surface of the push block 65.

有益に、前記冷却機構71は、前記伝動空間34の下側に位置し且つ左方に開口した放熱口28を含み、前記放熱口28の右壁にはファン軸23が回転できるように設けられ、前記ファン軸23の右端には従動プーリー21が設けられ、前記従動プーリー21と前記駆動プーリー37が前記ベルト38によって連結され、前記ファン軸23の左端には二枚の羽根24が設けられ、前記伝動軸33の左端には第二カム36が設けられ、前記蓄電池空間27の中には蓄電池25が設けられ、前記蓄電池25が前記導電ブロック19と導線20によって連結され、前記伝動空間34の下壁には前記蓄電池25を囲んだ冷却管路26が設けられ、前記冷却管路26の左端には前記放熱口28の中に位置する湾曲管29が設けられ、前記湾曲管29の右端が前記冷却管路26の右端を貫通し且つ前記冷却管路26の右端と連通しており、前記冷却管路26の右上部分には前記冷却管路26の中で上下にスライドできるピストン板30が設けられ、前記ピストン板30の上端面には前記伝動空間34の中に延びたプッシュロッド32が固定的に設けられ、前記プッシュロッド32の上端面にはプッシュプレート35が固定的に設けられ、前記プッシュプレート35の下端面には弾性ばね31が固定的に設けられ、前記弾性ばね31の下端が前記伝動空間34の下壁と連結され、前記湾曲管29の右端において上壁には下方に開口したスライド空間73が設けられ、前記スライド空間73の中には前記スライド空間73の中で左右にスライドできるスライドブロック61が設けられ、前記スライドブロック61の右端面には伸縮ばね62が固定的に設けられ、前記伸縮ばね62の右端が前記スライド空間73の右壁と連結され、前記スライドブロック61の下端面には直角棒74が固定的に設けられ、前記直角棒74の右端面には前記湾曲管29の右端の中で左右にスライドできるスライド板63が固定的に設けられている。 Beneficially, the cooling mechanism 71 includes a heat radiation port 28 located below the transmission space 34 and opened to the left, and is provided on the right wall of the heat radiation port 28 so that the fan shaft 23 can rotate. A driven pulley 21 is provided at the right end of the fan shaft 23, the driven pulley 21 and the drive pulley 37 are connected by the belt 38, and two blades 24 are provided at the left end of the fan shaft 23. A second cam 36 is provided at the left end of the transmission shaft 33, a storage battery 25 is provided in the storage battery space 27, and the storage battery 25 is connected to the conductive block 19 by a lead wire 20 to form a transmission space 34. A cooling pipe 26 surrounding the storage battery 25 is provided on the lower wall, a curved pipe 29 located in the heat radiation port 28 is provided at the left end of the cooling pipe 26, and the right end of the curved pipe 29 is provided. A piston plate 30 that penetrates the right end of the cooling pipe 26 and communicates with the right end of the cooling pipe 26, and can slide up and down in the cooling pipe 26 is located in the upper right portion of the cooling pipe 26. A push rod 32 extending into the transmission space 34 is fixedly provided on the upper end surface of the piston plate 30, and a push plate 35 is fixedly provided on the upper end surface of the push rod 32. An elastic spring 31 is fixedly provided on the lower end surface of the push plate 35, the lower end of the elastic spring 31 is connected to the lower wall of the transmission space 34, and the lower end of the curved pipe 29 is downward on the upper wall. An open slide space 73 is provided, a slide block 61 that can slide left and right in the slide space 73 is provided in the slide space 73, and a telescopic spring 62 is fixed to the right end surface of the slide block 61. The right end of the telescopic spring 62 is connected to the right wall of the slide space 73, a right angle rod 74 is fixedly provided on the lower end surface of the slide block 61, and the right end surface of the right end surface of the right end surface of the slide block 61 is fixedly provided. A slide plate 63 that can slide left and right in the right end of the curved pipe 29 is fixedly provided.

有益に、前記圧縮ばね60の弾力は、前記移動板16と前記移動棒59が前記制限空間11の中でスライドするときに受けた摩擦力の和より大きい。 Beneficially, the elasticity of the compression spring 60 is greater than the sum of the frictional forces received when the moving plate 16 and the moving rod 59 slide in the restricted space 11.

有益に、前記弾性ばね31の弾力は、前記ピストン板30が前記冷却管路26の中でスライドするときに受けた摩擦力より大きい。 Advantageously, the elasticity of the elastic spring 31 is greater than the frictional force received when the piston plate 30 slides in the cooling conduit 26.

初期状態に、二本の前記圧力ばね44の弾力により前記移動磁力ブロック42が前記磁力空間41の上側に位置し、前記移動磁力ブロック42が前記固定ブロック57から離れており、前記復帰ばね48の作用により前記移動通電ブロック50が前記通電空間53の中の右端に位置し、前記移動通電ブロック50が前記固定通電ブロック52から離れている。 In the initial state, the moving magnetic force block 42 is located above the magnetic force space 41 due to the elasticity of the two pressure springs 44, the moving magnetic force block 42 is separated from the fixed block 57, and the return spring 48 By the action, the mobile energization block 50 is located at the right end in the energization space 53, and the mobile energization block 50 is separated from the fixed energization block 52.

充電しようとするとき、充電ヘッド56を固定板58に固定し、そして手で固定板58を押すことで充電ヘッド56をプラグ55と通電できるように連結させ、移動棒59の左端にある移動板16が妨害ブロック12の左側まで移動し妨害ブロック12に止められ、これで充電ヘッド56とプラグ55の接触状態が終始維持され、充電ヘッド56がプラグ55と通電した後、充電ヘッド56から送ってきた電流が導電ブロック19と導線20を経由して蓄電池25を充電し、充電時に導電ブロック19を通る電流が大きいので、導電ブロック19の中から通電コイル54へ流れる電流も大きく、固定ブロック57によって生み出された磁力も大きく、移動磁力ブロック42が固定ブロック57の磁力によって吸引されて降下し、そして凸ブロック46が連動し押し棒49を右方へ押し動かし、移動通電ブロック50が押し棒49の推力によって右方へ移動し固定通電ブロック52と接触し、モーター39が電源と接続されて作動し、モーター39の作動により伝動軸33が回転し駆動プーリー37と第一カム66と第二カム36を回転させ、駆動プーリー37とベルト38によって連結された従動プーリー21が駆動プーリー37の回転により駆動されて回転し、そしてファン軸23と二枚の羽根24が連動し回転し、これで湾曲管29の中の冷却液に対する空気冷却が行われ、第一カム66の回転により押しブロック65が下方へ押し動かされ、引き紐13が緩み、引き紐13の牽引力を失った妨害ブロック12が弾力ばね15の弾力により妨害ブロック空間14の上端に位置するため、移動板16が止められ、第一カム66の回転により押しブロック65を押しブロック空間64の中まで押し動かした後、第一カム66が妨害ブロック65に止められて回転できなくなって伝動軸33でスライドし、第二カム36が間欠的にプッシュプレート35を下方へ押し動かし、プッシュプレート35の降下によりピストン板30が駆動されて下方へ移動し冷却管路26の中の冷却液を押し動かし、湾曲管29の中に流れ込んだ冷却液が羽根24によって生成された風によって冷却され、湾曲管29の中の冷却液がピストン板30によって押し動かされて流れることで、スライドブロック61とスライド板63が押し動かされて右方へ移動し、冷却後の冷却液が改めて冷却管路26の中に入り、これで冷却液の循環冷却が実現される。
充電後、導電ブロック19を流れる電流が小さくなり、固定ブロック57が移動磁力ブロック42に与える磁力も小さくなり、移動通電ブロック42が二本の圧力ばね44に引かれて上方へ移動し、凸ブロック46が押し棒49を押さなくなり、移動通電ブロック50が復帰ばね48の牽引力によって右方へ移動し固定通電ブロック52と離脱し、モーター39が停電し作動しなくなり、第一カム66が押しブロック65を押さなくなり、押しブロック65が支持ばね67の弾力によって上方へ移動し元の位置に戻り、引き紐13が引き締められ、妨害ブロック12が引き紐13の牽引力により下方へ移動し移動板16を止めなくなり、移動板16と移動棒59が妨害ブロック12の妨害を失って圧縮ばね60の牽引力により右方へ移動し、そして移動棒59と充電ヘッド56が連動し右方へ移動し、充電ヘッド56がプラグ55の中から離れ、ここで充電停止になる。 When attempting to charge, the charging head 56 is fixed to the fixing plate 58, and by pushing the fixing plate 58 by hand, the charging head 56 is connected to the plug 55 so as to be energized, and the moving plate at the left end of the moving rod 59 is connected. 16 moves to the left side of the obstruction block 12 and is stopped by the obstruction block 12, whereby the contact state between the charging head 56 and the plug 55 is maintained from beginning to end, and after the charging head 56 energizes the plug 55, it is sent from the charging head 56. The current flows through the conductive block 19 and the conducting wire 20 to charge the storage battery 25, and the current passing through the conductive block 19 during charging is large. Therefore, the current flowing from the conductive block 19 to the energizing coil 54 is also large, and the fixed block 57 causes the current to flow. The generated magnetic force is also large, the moving magnetic block 42 is attracted by the magnetic force of the fixed block 57 and descends, and the convex block 46 interlocks to push the push rod 49 to the right, and the moving energizing block 50 moves the push rod 49. It moves to the right by thrust and comes into contact with the fixed current block 52, the motor 39 is connected to the power supply and operates, and the transmission shaft 33 rotates due to the operation of the motor 39, and the drive pulley 37, the first cam 66, and the second cam 36 The driven pulley 27 and the driven pulley 21 connected by the belt 38 are driven and rotated by the rotation of the drive pulley 37, and the fan shaft 23 and the two blades 24 are interlocked and rotated, whereby the curved pipe is formed. Air cooling is performed on the coolant in 29, the push block 65 is pushed downward by the rotation of the first cam 66, the pull string 13 is loosened, and the obstruction block 12 which has lost the traction force of the pull string 13 is an elastic spring. Since it is located at the upper end of the obstruction block space 14 due to the elasticity of 15, the moving plate 16 is stopped, and after the push block 65 is pushed and moved into the block space 64 by the rotation of the first cam 66, the first cam 66 is moved. Stopped by the obstruction block 65 and unable to rotate, it slides on the transmission shaft 33, the second cam 36 intermittently pushes the push plate 35 downward, and the lowering of the push plate 35 drives the piston plate 30 downward. It moves and pushes the coolant in the cooling pipe 26, the coolant flowing into the curved pipe 29 is cooled by the wind generated by the blades 24, and the coolant in the curved pipe 29 is cooled by the piston plate 30. By being pushed and flowing, the slide block 61 and the slide plate 63 are pushed and moved to the right, and the cooled coolant enters the cooling conductor 26 again, whereby the circulating cooling of the coolant is performed. Realized To.
After charging, the current flowing through the conductive block 19 becomes smaller, the magnetic force applied to the moving magnetic force block 42 by the fixed block 57 also becomes smaller, the moving energizing block 42 is pulled by the two pressure springs 44 and moves upward, and the convex block 46 does not push the push rod 49, the moving energizing block 50 moves to the right by the traction force of the return spring 48 and separates from the fixed energizing block 52, the motor 39 fails to operate, and the first cam 66 pushes the block 65. The push block 65 moves upward by the elasticity of the support spring 67 and returns to the original position, the pull string 13 is tightened, and the obstruction block 12 moves downward by the pulling force of the pull string 13 to stop the moving plate 16. The moving plate 16 and the moving rod 59 lose the obstruction of the obstruction block 12 and move to the right by the traction force of the compression spring 60, and the moving rod 59 and the charging head 56 move to the right in conjunction with each other, and the charging head 56 Moves away from the plug 55 and stops charging here.

以上に述べたのはただ本願発明の具体的な実施方式で、本願発明の保護範囲はここに限らないである。全部の創造的な労働を通じなく思いついた変化と取替は本願発明の保護範囲にカバーされる。だから本願発明の保護範囲は権利要求書が限定される保護範囲を標準とする。 The above is merely a specific embodiment of the present invention, and the scope of protection of the present invention is not limited to this. Changes and replacements that come to mind through all creative labor are covered by the scope of the invention of the present application. Therefore, the scope of protection of the present invention is based on the scope of protection in which the request for rights is limited.

Claims (6)

本体を含み、前記本体の中において上端には伝動空間が設けられ、前記本体の中において左端には蓄電池空間が設けられ、前記伝動空間の中には本願発明に動力を提供する伝動機構が設けられ、前記蓄電池空間の中には蓄電池を冷却する冷却機構が設けられ、前記本体の中において右端には自動的にプラグを抜ける自動充電停止機構が設けられ、
前記自動充電停止機構は前記本体の中において右下にある制限空間を含み、前記制限空間の中には前記制限空間の中で左右にスライドできる移動板が設けられ、前記移動板の右端面には移動棒が固定的に設けられ、前記移動棒の右端が前記制限空間の右壁から延びており、前記移動棒の右上面には固定板が固定的に設けられ、前記移動板の右端面には圧縮ばねが固定的に設けられ、前記圧縮ばねの右端が前記制限空間の右壁と連結され、前記移動板の左端面には弾性紐が固定的に連結され、前記制限空間の下壁には上方に開口した妨害ブロック空間が設けられ、前記妨害ブロック空間の中には前記妨害ブロック空間の中で上下にスライドできる妨害ブロックが設けられ、前記妨害ブロックの下端面には弾力ばねが固定的に設けられ、前記弾力ばねの下端が前記妨害ブロック空間の下壁と連結され、前記妨害ブロックの下端面には引き紐が固定的に連結され、前記位置制限空間の上側には磁力空間が設けられ、前記磁力空間の右側には右方に開口した前記自動充電停止機構が設けられ、前記磁力空間の中において下端には導電ブロックが設けられ、前記自動充電停止機構の中には前記導電ブロックと通電可能に連結されたプラグが設けられ、前記固定板に充電ヘッドを固定でき、前記充電ヘッドが前記プラグと通電できるように連結でき、前記磁力空間の下端には固定ブロックが設けられ、前記固定ブロックと前記導電ブロックとが通電コイルによって通電できるように連結され、前記固定ブロックには前記通電コイルが巻きつけられており、前記磁力空間の上端において左右壁にはいずれも内側へ開口した移動溝が形成され、前記磁力空間の上端には前記磁力空間の中で上下にスライドできる移動磁力ブロックが設けられ、前記移動磁力ブロックの左右端面がそれぞれ二つの前記移動ブロックと固定的に連結され、二つの前記移動ブロックの下端面にはいずれも圧力ばねが固定的に設けられ、前記圧力ばねの下端が前記移動溝の下壁と連結され、左側の前記移動ブロックの上端面には前記弾性紐の一端が固定的に連結され、前記移動磁力ブロックの右下部分には凸ブロックが固定的に設けられていることを特徴とする電動スクーター充電用の自動的に充電を止めることができる設備。 A transmission space is provided at the upper end in the main body including the main body, a storage battery space is provided at the left end in the main body, and a transmission mechanism for providing power to the present invention is provided in the transmission space. A cooling mechanism for cooling the storage battery is provided in the storage battery space, and an automatic charging stop mechanism for automatically pulling out the plug is provided at the right end of the main body.
The automatic charging stop mechanism includes a restricted space at the lower right in the main body, and a moving plate that can slide left and right in the restricted space is provided in the restricted space, and a moving plate that can slide left and right in the restricted space is provided on the right end surface of the moving plate. Is fixedly provided with a moving rod, the right end of the moving rod extends from the right wall of the restricted space, and a fixed plate is fixedly provided on the upper right upper surface of the moving rod, and the right end surface of the moving plate is provided. A compression spring is fixedly provided in the space, the right end of the compression spring is connected to the right wall of the restricted space, and an elastic cord is fixedly connected to the left end surface of the moving plate, and the lower wall of the restricted space is connected. Is provided with an obstruction block space that opens upward, an obstruction block that can slide up and down in the obstruction block space is provided in the obstruction block space, and an elastic spring is fixed to the lower end surface of the obstruction block. The lower end of the elastic spring is connected to the lower wall of the obstruction block space, the drawstring is fixedly connected to the lower end surface of the obstruction block, and the magnetic force space is above the position limiting space. The automatic charging stop mechanism is provided on the right side of the magnetic space, and a conductive block is provided at the lower end in the magnetic space, and the conductive block is provided in the automatic charging stop mechanism. A plug that is electrically connected to the block is provided, the charging head can be fixed to the fixing plate, the charging head can be connected so that the plug can be energized, and a fixing block is provided at the lower end of the magnetic space. The fixed block and the conductive block are connected so as to be energized by an energizing coil, the energizing coil is wound around the fixed block, and both the left and right walls are opened inward at the upper end of the magnetic force space. A moving groove is formed, and a moving magnetic block that can slide up and down in the magnetic space is provided at the upper end of the magnetic space, and the left and right end faces of the moving magnetic block are fixedly connected to each of the two moving blocks. A pressure spring is fixedly provided on the lower end surfaces of the two moving blocks, the lower end of the pressure spring is connected to the lower wall of the moving groove, and the upper end surface of the moving block on the left side has the elasticity. Equipment for automatically stopping charging of an electric scooter, characterized in that one end of a string is fixedly connected and a convex block is fixedly provided in the lower right portion of the moving magnetic force block. .. 前記磁力空間の中間において右側には通電空間が設けられ、前記通電空間の中において右端には固定通電ブロックが固定的に設けられ、前記固定通電ブロックの右端面には外部の通電線が通電できるように連結され、前記通電空間の左端には前記通電空間の中で左右にスライドできる移動通電ブロックが設けられ、前記移動通電ブロックの左端面には押し棒が固定的に設けられ、前記押し棒の左端が前記磁力空間の中に延びており、前記移動通電ブロックの左端面には復帰ばねが固定的に設けられ、前記復帰ばねの左端が前記通電空間の左壁と連結され、前記移動通電ブロックの左端面には電線が通電できるように連結されていることを特徴とする請求項1に記載の電動スクーター充電用の自動的に充電を止めることができる設備。 An energizing space is provided on the right side in the middle of the magnetic space, a fixed energizing block is fixedly provided at the right end in the energizing space, and an external energizing line can be energized on the right end surface of the fixed energizing block. A moving energizing block that can slide left and right in the energizing space is provided at the left end of the energizing space, and a push rod is fixedly provided on the left end surface of the moving energizing block. The left end of the magnetic space extends into the magnetic space, a return spring is fixedly provided on the left end surface of the mobile energization block, the left end of the return spring is connected to the left wall of the energization space, and the mobile energization is performed. The equipment for automatically stopping charging of an electric scooter according to claim 1, wherein an electric wire is connected to the left end surface of the block so that an electric wire can be energized. 前記伝動機構は、前記伝動空間の右壁に固定されたモーターを含み、前記モーターの右端には前記電線が通電できるように連結され、前記モーターの左端には伝動軸が伝動できるように連結され、前記伝動軸の左端が前記伝動空間の左壁と回転できるように連結され、前記伝動軸の右端には駆動プーリーが設けられ、前記駆動プーリーにはベルトが連結され、前記伝動軸の左端には第一カムが摩擦できるように設けられ、前記伝動空間の下壁には上方に開口した押しブロック空間が設けられ、前記押しブロック空間の中には前記押しブロック空間の中で上下にスライドできる押しブロックが設けられ、前記押しブロックの下端面には支持ばねが固定的に設けられ、前記支持ばねの下端が前記押しブロック空間の下壁と連結され、前記押しブロックの右端面には前記引き紐が固定的に連結されていることを特徴とする請求項1に記載の電動スクーター充電用の自動的に充電を止めることができる設備。 The transmission mechanism includes a motor fixed to the right wall of the transmission space, is connected to the right end of the motor so that the electric wire can be energized, and is connected to the left end of the motor so that a transmission shaft can be transmitted. , The left end of the transmission shaft is rotatably connected to the left wall of the transmission space, a drive pulley is provided at the right end of the transmission shaft, a belt is connected to the drive pulley, and the left end of the transmission shaft is connected. Is provided so that the first cam can rub, a push block space opened upward is provided on the lower wall of the transmission space, and the push block space can be slid up and down in the push block space. A push block is provided, a support spring is fixedly provided on the lower end surface of the push block, the lower end of the support spring is connected to the lower wall of the push block space, and the pull is provided on the right end surface of the push block. The equipment for automatically stopping charging of an electric scooter according to claim 1, wherein the strings are fixedly connected. 前記冷却機構は、前記伝動空間の下側に位置し且つ左方に開口した放熱口を含み、前記放熱口の右壁にはファン軸が回転できるように設けられ、前記ファン軸の右端には従動プーリーが設けられ、前記従動プーリーと前記駆動プーリーが前記ベルトによって連結され、前記ファン軸の左端には二枚の羽根が設けられ、前記伝動軸の左端には第二カムが設けられ、前記蓄電池空間の中には蓄電池が設けられ、前記蓄電池が前記導電ブロックと導線によって連結され、前記伝動空間の下壁には前記蓄電池を囲んだ冷却管路が設けられ、前記冷却管路の左端には前記放熱口の中に位置する湾曲管が設けられ、前記湾曲管の右端が前記冷却管路の右端を貫通し且つ前記冷却管路の右端と連通しており、前記冷却管路の右上部分には前記冷却管路の中で上下にスライドできるピストン板が設けられ、前記ピストン板の上端面には前記伝動空間の中に延びたプッシュロッドが固定的に設けられ、前記プッシュロッドの上端面にはプッシュプレートが固定的に設けられ、前記プッシュプレートの下端面には弾性ばねが固定的に設けられ、前記弾性ばねの下端が前記伝動空間の下壁と連結され、前記湾曲管の右端において上壁には下方に開口したスライド空間が設けられ、前記スライド空間の中には前記スライド空間の中で左右にスライドできるスライドブロックが設けられ、前記スライドブロックの右端面には伸縮ばねが固定的に設けられ、前記伸縮ばねの右端が前記スライド空間の右壁と連結され、前記スライドブロックの下端面には直角棒が固定的に設けられ、前記直角棒の右端面には前記湾曲管の右端の中で左右にスライドできるスライド板が固定的に設けられていることを特徴とする請求項3に記載の電動スクーター充電用の自動的に充電を止めることができる設備。 The cooling mechanism includes a heat radiation port located below the transmission space and opened to the left, and is provided on the right wall of the heat radiation port so that a fan shaft can rotate, and at the right end of the fan shaft. A driven pulley is provided, the driven pulley and the drive pulley are connected by the belt, two blades are provided at the left end of the fan shaft, and a second cam is provided at the left end of the transmission shaft. A storage battery is provided in the storage battery space, the storage battery is connected to the conductive block by a conducting wire, a cooling pipeline surrounding the storage battery is provided on the lower wall of the transmission space, and the left end of the cooling pipeline is provided. Is provided with a curved pipe located in the heat radiation port, the right end of the curved pipe penetrates the right end of the cooling pipeline and communicates with the right end of the cooling pipeline, and the upper right portion of the cooling pipeline. Is provided with a piston plate that can slide up and down in the cooling pipeline, and a push rod extending into the transmission space is fixedly provided on the upper end surface of the piston plate, and the upper end surface of the push rod is provided. Is fixedly provided with a push plate, an elastic spring is fixedly provided on the lower end surface of the push plate, and the lower end of the elastic spring is connected to the lower wall of the transmission space at the right end of the curved pipe. A slide space that opens downward is provided on the upper wall, a slide block that can slide left and right in the slide space is provided in the slide space, and a telescopic spring is fixed to the right end surface of the slide block. The right end of the telescopic spring is connected to the right wall of the slide space, a right-angle rod is fixedly provided on the lower end surface of the slide block, and the right end surface of the right-angle rod is the right end of the curved pipe. The equipment for charging an electric scooter according to claim 3, wherein a slide plate that can slide left and right is fixedly provided. 前記圧縮ばねの弾力は、前記移動板と前記移動棒が前記制限空間の中でスライドするときに受けた摩擦力の和より大きいことを特徴とする請求項1に記載の電動スクーター充電用の自動的に充電を止めることができる設備。 The automatic for charging an electric scooter according to claim 1, wherein the elasticity of the compression spring is larger than the sum of the frictional forces received when the moving plate and the moving rod slide in the restricted space. Equipment that can stop charging. 前記弾性ばねの弾力は、前記ピストン板が前記冷却管路の中でスライドするときに受けた摩擦力より大きいことを特徴とする請求項4に記載の電動スクーター充電用の自動的に充電を止めることができる設備。 The elastic spring for charging an electric scooter according to claim 4, wherein the elasticity of the elastic spring is larger than the frictional force received when the piston plate slides in the cooling pipeline. Equipment that can be.
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