TW202037250A - Power supply unit - Google Patents

Power supply unit Download PDF

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Publication number
TW202037250A
TW202037250A TW109110212A TW109110212A TW202037250A TW 202037250 A TW202037250 A TW 202037250A TW 109110212 A TW109110212 A TW 109110212A TW 109110212 A TW109110212 A TW 109110212A TW 202037250 A TW202037250 A TW 202037250A
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Taiwan
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supply unit
inner box
power supply
cover
box
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TW109110212A
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Chinese (zh)
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TWI745904B (en
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田中昌史
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日商松下知識產權經營股份有限公司
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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
    • B60L53/10Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
    • B60L53/14Conductive energy transfer
    • B60L53/16Connectors, e.g. plugs or sockets, specially adapted for charging electric vehicles
    • 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
    • B60L53/10Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
    • B60L53/14Conductive energy transfer
    • B60L53/18Cables specially adapted for charging electric vehicles
    • 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
    • B60L53/31Charging columns specially adapted for electric vehicles
    • 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
    • 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
    • Y02T90/14Plug-in electric vehicles

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)
  • Casings For Electric Apparatus (AREA)
  • Battery Mounting, Suspending (AREA)

Abstract

An object of the present disclosure is to provide a power supply unit with improved waterproofness. A power supply unit (100) according to an embodiment is designed to output, through a relay (170) to a power cable, electric power to charge a storage battery used as a power source for a moving vehicle. The power supply unit (100) includes: an inner box (110) housing a board (150) on which the relay (170) is implemented; and an outer box (130) nesting the inner box (110) therein. The inner box (110) includes: a first body (111) having a first opening; and a first lid (112) closing the first opening and having a smaller depth than the first body (111). The outer box (130) includes: a second body (131) having a second opening (133); and a second lid (132) closing the second opening (133) and having a smaller depth than the second body (131). The inner box (110) is arranged with respect to the second body (131) such that the first body (111) of the inner box (110) is located closer to the second opening (133) than the first lid (112) thereof is.

Description

供電單元Power supply unit

本揭示內容有關用於對蓄電池充電的供電單元。The present disclosure relates to a power supply unit for charging a battery.

例如電動車(EV)及插電式混合動力載具(PHV)的電動馬達載具包含蓄電池作為其電力來源。蓄電池係以裝設在使用者家中或商業設施的充電座加以充電。For example, electric motor vehicles such as electric vehicles (EV) and plug-in hybrid vehicles (PHV) include batteries as their power source. The accumulator is charged by a charging stand installed in the user's home or commercial facility.

如此充電座包含其中容納繼電器及控制繼電器用之控制電路的盒體。繼電器係用以斷開及閉合電力饋送路徑,電力係經由該電力饋送路徑透過纜線供給至蓄電池。Such a charging base includes a box body containing a relay and a control circuit for the control relay. The relay is used to open and close the power feeding path, and the power is supplied to the storage battery through the cable through the power feeding path.

充電座通常裝設在戶外,且因此盒體具有防水結構。因為若在下雨時水進入盒體,其內部電路及其他部件可能短路,所以需要使用該防水結構。The charging stand is usually installed outdoors, and therefore the box body has a waterproof structure. Because if water enters the box when it is raining, its internal circuits and other components may be short-circuited, so this waterproof structure is required.

不僅針對充電座設置如此盒體,且具有已知防水結構的盒體亦包含:具有雙重框架(由內框架及外框架構成)的外殼;由彈性材料製成的內蓋;及外蓋。具體而言,在具有如此防水結構的盒體中,電子電路板被容納在外殼的內框架內部。內蓋係安裝於內框架之外周中,以利用內蓋覆蓋內框架的開放端面。然後安裝外蓋以覆蓋外框架的開放端面及內蓋(見例如JP 2014-53405A)。Not only is such a box body provided for the charging dock, but the box body with a known waterproof structure also includes: a shell with a double frame (consisting of an inner frame and an outer frame); an inner cover made of elastic material; and an outer cover. Specifically, in a box with such a waterproof structure, the electronic circuit board is contained inside the inner frame of the housing. The inner cover is installed in the outer periphery of the inner frame to cover the open end surface of the inner frame with the inner cover. Then the outer cover is installed to cover the open end surface of the outer frame and the inner cover (see, for example, JP 2014-53405A).

然而,在JP 2014-53405A的防水盒體中,外蓋與雙重框架外殼之間的第一接合面靠近內蓋與雙重框架外殼之間的第二接合面,使得滲透通過第一接合面的雨水經常通過第二接合面而進入盒體。尤其是當因颱風靠近而有暴風雨時,盒體的防水結構之效能限度可能過低而無法防止雨水滲入盒體。However, in the waterproof box of JP 2014-53405A, the first joint surface between the outer cover and the double-frame housing is close to the second joint surface between the inner cover and the double-frame housing, so that rainwater permeating through the first joint surface Often enter the box through the second joint surface. Especially when there is a storm due to the approach of a typhoon, the effectiveness limit of the waterproof structure of the box body may be too low to prevent rainwater from penetrating into the box body.

因此,本揭示內容的目的為提供具有防水結構的供電單元,而其可靠度係藉由減少雨水及其他濕氣進入容納電路板之內盒的機會來加以改善。Therefore, the purpose of the present disclosure is to provide a power supply unit with a waterproof structure, and its reliability is improved by reducing the chance of rainwater and other moisture entering the inner box containing the circuit board.

依據本揭示內容之態樣的供電單元係設計成對電力電纜輸出電力,以對用作移動載具之電力源的蓄電池充電。該供電單元包含:容納其上實施電子零件之板的內盒;及將內盒嵌套於其中的外盒。內盒包含:具有第一開口的第一本體;及封閉第一開口且具有比第一本體更小之深度的第一蓋。外盒包含:具有第二開口的第二本體;及封閉第二開口且具有比第二本體更小之深度的第二蓋。內盒係相對於第二本體而設置,使得內盒的第一本體定位成比內盒的第一蓋更靠近第二開口。The power supply unit according to the aspect of the present disclosure is designed to output power to the power cable to charge the storage battery used as the power source of the mobile vehicle. The power supply unit includes: an inner box containing a board on which electronic components are implemented; and an outer box in which the inner box is nested. The inner box includes: a first body having a first opening; and a first cover that closes the first opening and has a smaller depth than the first body. The outer box includes: a second body having a second opening; and a second cover that closes the second opening and has a smaller depth than the second body. The inner box is arranged relative to the second body, so that the first body of the inner box is positioned closer to the second opening than the first cover of the inner box.

依據本揭示內容之供電單元的例示實施例將參照圖1-5而說明。注意以下敘述內容中所揭示的實施例僅為例示者,且不應解讀為限制依據本揭示內容之供電單元的範疇。An exemplary embodiment of the power supply unit according to the present disclosure will be described with reference to FIGS. 1-5. Note that the embodiments disclosed in the following description are only examples, and should not be interpreted as limiting the scope of the power supply unit according to the present disclosure.

並且,在以下的實施例說明中,可能省略不必要的詳細說明。舉例而言,可省略已經為人熟知之事物的詳細說明及實質上相同配置的多餘說明。此係為了避免使以下說明過分冗餘,並藉此幫助所屬領域中具有通常知識者更輕易理解本揭示內容。In addition, in the following description of the embodiments, unnecessary detailed descriptions may be omitted. For example, detailed descriptions of things that are already well-known and redundant descriptions of substantially the same configuration may be omitted. This is to avoid making the following descriptions excessively redundant, and to help those with ordinary knowledge in the field to more easily understand the present disclosure.

依據例示實施例的供電單元100(見圖1)向電力電纜104(見圖1)輸出電力,以將用作移動載具106(見圖5)之電力源的蓄電池107(見圖5)充電。供電單元100包含:容納一板(第一板150,見圖2)的內盒110(見圖2),繼電器170(見圖5)及其他電子部件係實施於該板上;及將內盒110套於其中的外盒130(見圖1)。內盒110包含:具有第一開口113(見圖4)的第一本體111(見圖2);及將第一開口113關閉且具有比第一本體111小之深度的第一蓋112(見圖2)。外盒130包含:具有第二開口133(見圖2)的第二本體131(見圖2);及具有比第二本體131小之深度的第二蓋132(見圖2)。第二蓋132將第二開口133關閉。內盒110係相關於第二本體131而設置,使得內盒110的第一本體111比其第一蓋112定位更靠近第二開口133。The power supply unit 100 (see FIG. 1) according to the exemplary embodiment outputs power to the power cable 104 (see FIG. 1) to charge the storage battery 107 (see FIG. 5) used as the power source of the mobile vehicle 106 (see FIG. 5) . The power supply unit 100 includes: an inner box 110 (see FIG. 2) accommodating a board (first board 150, see FIG. 2), a relay 170 (see FIG. 5) and other electronic components are implemented on the board; and the inner box 110 sets of the outer box 130 (see Figure 1). The inner box 110 includes: a first body 111 (see FIG. 2) having a first opening 113 (see FIG. 4); and a first cover 112 (see FIG. 2) that closes the first opening 113 and has a smaller depth than the first body 111 figure 2). The outer box 130 includes: a second body 131 (see FIG. 2) having a second opening 133 (see FIG. 2); and a second cover 132 (see FIG. 2) having a smaller depth than the second body 131. The second cover 132 closes the second opening 133. The inner box 110 is arranged relative to the second body 131 so that the first body 111 of the inner box 110 is positioned closer to the second opening 133 than the first cover 112 thereof.

此將第一蓋112和第一本體111之間的接合面(亦即內盒110的分界面)與第二蓋132和第二本體131之間的接合面(亦即外盒130的分界面)隔開,且在此二接合面之間留下至少一定的距離。因此,在外盒130及內盒110之個別分界面之間留下的距離使已進入外盒130之靜止雨水深到足以進入內盒110的機會減少,因而改善防水的可靠度。This connects the joint surface between the first cover 112 and the first body 111 (that is, the interface of the inner box 110) and the joint surface between the second cover 132 and the second body 131 (that is, the interface of the outer box 130). ) Are separated and leave at least a certain distance between the two joint surfaces. Therefore, the distance left between the individual interface surfaces of the outer box 130 and the inner box 110 reduces the chance that the static rainwater that has entered the outer box 130 is deep enough to enter the inner box 110, thereby improving the reliability of waterproofing.

(第一實施例) 如圖1所示,依據第一實施例的供電單元100係安裝於支柱109的預訂安裝表面102上,該支柱109係特別針對此供電單元100而設置。支柱109設立於地面上,使得支柱109的縱軸實質上豎直立起。供電單元100包含充電器本體101、插頭103、電力電纜104、及保持器105。電力電纜104將充電器本體101連接至插頭103。在此實施例中,供電單元100係安裝於專用支柱109上且在其背面上。然而,此僅為範例,且不應解讀為具有限制性。替代性地,供電單元100亦可安裝在不同安裝表面上,例如建築物的壁面或柱子。(First embodiment) As shown in FIG. 1, the power supply unit 100 according to the first embodiment is installed on a predetermined mounting surface 102 of a pillar 109 which is specifically set up for this power supply unit 100. The pillar 109 is set up on the ground so that the longitudinal axis of the pillar 109 is substantially upright. The power supply unit 100 includes a charger body 101, a plug 103, a power cable 104, and a holder 105. The power cable 104 connects the charger body 101 to the plug 103. In this embodiment, the power supply unit 100 is installed on the dedicated pillar 109 and on its back. However, this is only an example, and should not be interpreted as restrictive. Alternatively, the power supply unit 100 can also be installed on a different installation surface, such as a wall or a pillar of a building.

充電器本體101輸出電力以對蓄電池107充電,蓄電池107係用作移動載具106的電力源。充電器本體101具有其透過纜線200(見圖5)連接至電力網108(見圖5)的輸入端子。作為將從充電器本體101輸出至移動載具106之蓄電池的電力,可使用從電力網108供給的AC電力。The charger body 101 outputs electric power to charge the battery 107, and the battery 107 is used as a power source for the mobile carrier 106. The charger body 101 has its input terminal connected to the power grid 108 (see FIG. 5) through a cable 200 (see FIG. 5). As the power output from the charger main body 101 to the storage battery of the mobile vehicle 106, AC power supplied from the power grid 108 can be used.

插頭103可連接至移動載具106中之蓄電池107的充電埠。充電器本體101利用連接至移動載具106之充電埠的插頭103輸出充電電力,藉此經由插頭103供給電力至蓄電池107並以電力對蓄電池107充電。當插頭103未被使用時,保持器105固持插頭103。The plug 103 can be connected to the charging port of the battery 107 in the mobile carrier 106. The charger body 101 uses the plug 103 connected to the charging port of the mobile carrier 106 to output charging power, thereby supplying power to the battery 107 through the plug 103 and charging the battery 107 with the power. When the plug 103 is not in use, the holder 105 holds the plug 103.

移動載具106包含蓄電池107,並利用儲存在蓄電池107中的電能行進。移動載具106的範例包括電動載具(EV)、設計成利用內燃引擎之輸出及電動馬達之輸出的組合行進的插電式混合動力電動載具(PHEV)、燃料電池載具(FCV)、電動搬運車、電動二輪車、電動三輪車、及四輪越野車。電動二輪車的範例包括摩托車、電動摩托車、及電輔助二輪車。電動三輪車的範例包括電動摩托車及電輔助三輪車。移動載具106的範例更包括飛行物件,例如無人機及飛行器。亦即,移動載具106未必為具有輪子的載具。The mobile vehicle 106 includes a storage battery 107 and travels by using electric energy stored in the storage battery 107. Examples of mobile vehicles 106 include electric vehicles (EV), plug-in hybrid electric vehicles (PHEV), and fuel cell vehicles (FCV) designed to use a combination of internal combustion engine output and electric motor output. , Electric pallets, electric two-wheelers, electric tricycles, and four-wheel off-road vehicles. Examples of electric motorcycles include motorcycles, electric motorcycles, and electric assisted motorcycles. Examples of electric tricycles include electric motorcycles and electric assisted tricycles. Examples of the mobile vehicle 106 further include flying objects, such as drones and aircraft. That is, the mobile vehicle 106 may not be a vehicle with wheels.

如圖2所示,充電器本體101包含內盒110(外殼)及外盒130。充電器本體101具有由內盒110及外盒130構成的嵌套式結構,且可例如由樹脂製成。除此之外,內盒110較佳但未必由例如聚乙烯、聚丙烯、聚碳酸酯、聚苯硫醚、或聚偏二氯乙烯的高度耐熱樹脂製成,以容納產生熱量的繼電器170及其他構件,如之後將說明。內盒110包括第一本體111及第一蓋112。外盒130包括第二本體131及第二蓋132,並將內盒110嵌套於其中。As shown in FIG. 2, the charger body 101 includes an inner box 110 (outer shell) and an outer box 130. The charger body 101 has a nested structure composed of an inner box 110 and an outer box 130, and may be made of resin, for example. In addition, the inner box 110 is preferably but not necessarily made of a highly heat-resistant resin such as polyethylene, polypropylene, polycarbonate, polyphenylene sulfide, or polyvinylidene chloride to accommodate the heat generating relay 170 and Other components will be explained later. The inner box 110 includes a first body 111 and a first cover 112. The outer box 130 includes a second body 131 and a second cover 132, and the inner box 110 is nested therein.

第一本體111係形成為盒體形狀,該盒體的一端面為開放式以形成第一開口113。第一本體111包含大致矩形的第一底板114、及從第一底板114之周緣實質上垂直於第一底板114而延伸的四個側板。如圖3所示,該四個側板由第一左側板115、第一右側板116、第一上側板117、及第一下側板118構成。The first body 111 is formed in a box shape, and one end surface of the box body is open to form a first opening 113. The first body 111 includes a substantially rectangular first bottom plate 114 and four side plates extending from the periphery of the first bottom plate 114 substantially perpendicular to the first bottom plate 114. As shown in FIG. 3, the four side panels are composed of a first left side panel 115, a first right side panel 116, a first upper side panel 117, and a first lower side panel 118.

在以下的此實施例之敘述中,除非另外聲明,否則當充電器本體101安裝在支柱109上時,供電單元100的後表面應面向後方,且供電單元100的前表面應面向前方。並且,當在此使用時,「朝上/朝下方向」應為垂直於地面的方向,且「朝右/朝左方向」應為在供電單元100之前視圖中指向右方及指向左方的方向。In the following description of this embodiment, unless otherwise stated, when the charger body 101 is installed on the pillar 109, the rear surface of the power supply unit 100 should face rearward, and the front surface of the power supply unit 100 should face forward. And, when used here, the "upward/downward direction" should be the direction perpendicular to the ground, and the "rightward/leftward direction" should be the direction pointing to the right and to the left in the front view of the power supply unit 100 direction.

在第一本體111內側的空間(亦即內部空間)中,可容納第一板150及第二板151。In the space inside the first body 111 (that is, the internal space), the first board 150 and the second board 151 can be accommodated.

第一板150及第二板151之各者為硬板,其基底材料係由玻璃環氧樹脂製成。在第一板150上所實施的為例如供電電路(見圖5)、至少兩繼電器170、及導熱構件180的電子零件。導熱構件180之各者緊靠於繼電器170其中關連者的腳部,以使繼電器170產生的熱量消散。第一板150係安裝於第一本體111之第一底板114上,使得其上有電子零件、繼電器170、及導熱構件180組裝在一起的板表面朝向第一開口113。亦即,板(第一板150)係安裝於第一本體111的底部(亦即第一底板114)上。此幫助在第一本體111之第一開口113與該板(亦即第一板150)之間留下足夠距離。Each of the first board 150 and the second board 151 is a rigid board, and its base material is made of glass epoxy resin. Implemented on the first board 150 are electronic components such as a power supply circuit (see FIG. 5), at least two relays 170, and a heat conducting member 180. Each of the heat-conducting members 180 abuts against the feet of the connected ones of the relay 170 to dissipate the heat generated by the relay 170. The first board 150 is installed on the first bottom plate 114 of the first body 111 so that the surface of the board on which the electronic components, the relay 170 and the heat conducting member 180 are assembled faces the first opening 113. That is, the board (the first board 150) is installed on the bottom of the first body 111 (that is, the first bottom board 114). This helps to leave a sufficient distance between the first opening 113 of the first body 111 and the board (ie, the first board 150).

如圖4所示,第一板150經配置以沿著第一本體111的深度定位成至少比該深度的中間部(亦即第一本體111之深度的中間部)更靠近底部。採用如此結構使第一板150距離第一開口113更遠,因此減少已進入內盒110之靜止雨水或任何其他濕氣到達第一板150的機會。此亦進一步改善充電器本體101的防水性。As shown in FIG. 4, the first plate 150 is configured to be positioned along the depth of the first body 111 closer to the bottom than at least the middle portion of the depth (ie, the middle portion of the depth of the first body 111). With such a structure, the first plate 150 is further away from the first opening 113, thereby reducing the chance of static rainwater or any other moisture that has entered the inner box 110 reaching the first plate 150. This also further improves the waterproofness of the charger body 101.

如圖5所示,連接至電力網108的纜線200係連接至電力電纜端子台140(見圖3)的一對輸入端子156,且電力電纜104係連接至電力電纜端子台140的一對輸出端子。電力電纜端子台140的輸入端子156及輸出端子157係經由一對電力線158連接在一起,而兩繼電器170係分別插入設置在該對電力線158上。As shown in FIG. 5, the cable 200 connected to the power network 108 is connected to a pair of input terminals 156 of the power cable terminal block 140 (see FIG. 3), and the power cable 104 is connected to a pair of output terminals of the power cable terminal block 140. Terminal. The input terminal 156 and the output terminal 157 of the power cable terminal block 140 are connected together via a pair of power lines 158, and the two relays 170 are inserted into the pair of power lines 158, respectively.

AC電力係從電力網108透過電力電纜端子台140之輸入端子156及繼電器170供給至電力電纜端子台140的輸出端子157。然後,AC電力從電力電纜端子台140傳輸通過電力電纜104及插頭103到移動載具106的蓄電池107。插頭103係連接至電力電纜104。AC power is supplied from the power grid 108 to the output terminal 157 of the power cable terminal block 140 through the input terminal 156 and the relay 170 of the power cable terminal block 140. Then, AC power is transmitted from the power cable terminal block 140 through the power cable 104 and the plug 103 to the storage battery 107 of the mobile carrier 106. The plug 103 is connected to the power cable 104.

此外,供電單元100更包含控制單元159以供斷開及閉合繼電器170。控制單元159係經由通訊纜線161連接至移動載具106。依據來自移動載具106的充電/放電指令,控制單元159將繼電器170斷開及閉合。In addition, the power supply unit 100 further includes a control unit 159 for opening and closing the relay 170. The control unit 159 is connected to the mobile carrier 106 via a communication cable 161. According to the charging/discharging command from the mobile vehicle 106, the control unit 159 opens and closes the relay 170.

任何類型的繼電器皆可用作繼電器170,只要繼電器170對於控制單元159為可控制即可。在此實施例中,繼電器170係實施為具有機械接點的機械式繼電器。然而,此僅為範例,且不應解讀為限制性。替代性地,繼電器170亦可為不具有機械接點的半導體繼電器。Any type of relay can be used as the relay 170 as long as the relay 170 is controllable by the control unit 159. In this embodiment, the relay 170 is implemented as a mechanical relay with mechanical contacts. However, this is only an example and should not be construed as limiting. Alternatively, the relay 170 may also be a semiconductor relay without mechanical contacts.

第一本體111更包含第一凸緣119(見圖2),該第一凸緣119從形成第一開口113之第一左側板115、第一右側板116、第一上側板117、及第一下側板118的個別邊緣朝外延伸(亦即朝第一本體111的外周延伸)。The first body 111 further includes a first flange 119 (see FIG. 2). The first flange 119 extends from the first left side plate 115, the first right side plate 116, the first upper side plate 117, and the first opening 113. The individual edges of the lower side plate 118 extend outward (that is, extend toward the outer circumference of the first body 111).

在第一凸緣119之外部,從第一上側板117朝外(亦即朝上)延伸的部分及從第一下側板118朝外(亦即朝下)延伸的另一部分各設有第一螺孔121(見圖2),以供利用螺絲緊固第一蓋112。在此實施例中,對第一凸緣119的此兩部分之各者設置單一第一螺孔121。然而,此僅為範例,且不應解讀為限制性。替代性地,可對第一凸緣119的此兩部分之各者設置二或更多第一螺孔121。替代性或外加性地,亦可對第一凸緣119的從第一上側板117及第一下側板118以外之任何側板(亦即第一左側板115或第一右側板116)延伸之部分設置第一螺孔121。On the outside of the first flange 119, a part extending outward (that is, upward) from the first upper side plate 117 and another part extending outward (that is, downward) from the first lower side plate 118 are each provided with a first The screw hole 121 (see FIG. 2) is used for fastening the first cover 112 with screws. In this embodiment, a single first screw hole 121 is provided for each of the two parts of the first flange 119. However, this is only an example and should not be construed as limiting. Alternatively, two or more first screw holes 121 may be provided to each of the two parts of the first flange 119. Alternatively or additionally, the part of the first flange 119 that extends from any side plate other than the first upper side plate 117 and the first lower side plate 118 (that is, the first left side plate 115 or the first right side plate 116) The first screw hole 121 is provided.

第一蓋112形成為具有開口之盒體的形狀,如圖2所示。第一蓋112包含大致矩形的第二底板122、及從第二底板122之周緣大致垂直於第二底板122而延伸的四個側板。該四個側板由:第二左側板123、第二右側板124、第二上側板125、及第二下側板126構成。The first cover 112 is formed in the shape of a box with an opening, as shown in FIG. 2. The first cover 112 includes a substantially rectangular second bottom plate 122 and four side plates extending from the periphery of the second bottom plate 122 substantially perpendicular to the second bottom plate 122. The four side panels are composed of a second left side panel 123, a second right side panel 124, a second upper side panel 125, and a second lower side panel 126.

第一蓋112更包含第二凸緣127,該第二凸緣127從形成開口之第二左側板123、第二右側板124、第二上側板125、及第二下側板126的個別邊緣朝外延伸(亦即朝第一蓋112的外周延伸)。第二凸緣127可具有與第一凸緣119實質上相同的尺寸及幾乎相同的形狀。替代性地,第二凸緣127可具有比第一凸緣119略小的尺寸。The first cover 112 further includes a second flange 127, which faces the respective edges of the second left side plate 123, the second right side plate 124, the second upper side plate 125, and the second lower side plate 126 that form the opening. Extend outward (that is, extend toward the outer circumference of the first cover 112). The second flange 127 may have substantially the same size and almost the same shape as the first flange 119. Alternatively, the second flange 127 may have a slightly smaller size than the first flange 119.

在第二凸緣127之外部,從第二上側板125朝外(亦即朝上)延伸的部分及從第二下側板126朝外(亦即朝下)延伸的另一部分各具有切除部129,以供利用螺絲將第一蓋112緊固至第一本體111的第一凸緣119。採用如此結構容許將第一蓋112可移除地附接至第一開口113,且亦使第一本體111的內部空間氣密密封。此外,當第一本體111氣密密封時,改善防水性的墊料構件(未顯示)係適當地插入於第一本體111與第一蓋112之間。On the outside of the second flange 127, a portion extending outward (ie upward) from the second upper side plate 125 and another portion extending outward (ie downward) from the second lower side plate 126 each have a cut-out portion 129 , So as to fasten the first cover 112 to the first flange 119 of the first body 111 with screws. Adopting such a structure allows the first cover 112 to be removably attached to the first opening 113, and also makes the inner space of the first body 111 hermetically sealed. In addition, when the first body 111 is hermetically sealed, a gasket member (not shown) for improving waterproofness is appropriately inserted between the first body 111 and the first cover 112.

第一左側板115及第一右側板116在朝前/朝後方向(亦即沿著第一本體111的深度)上量測的尺寸係設計成大於第二左側板123及第二右側板124在朝前/朝後方向(亦即沿著第一蓋112的深度)上量測的尺寸。因此,第一蓋112形成為具有比第一本體111更小之深度的盒體形狀。此外,周邊壁120(見圖4)從第一凸緣119的外周直立,且具有與第一蓋112實質相同的在朝前/朝後方向上量測之尺寸。此容許第一蓋112被容納於以第一凸緣119及周邊壁120圍繞的空間中。亦即,將第一蓋112置入第一本體111中。因此,第一本體111與第一蓋112之間的界線(亦即第一凸緣119與第二凸緣127之間的接合面)係位於第一本體111內側,因而改善防水性。The dimensions of the first left side plate 115 and the first right side plate 116 measured in the forward/backward direction (that is, along the depth of the first body 111) are designed to be larger than the second left side plate 123 and the second right side plate 124 The size measured in the forward/backward direction (that is, along the depth of the first cover 112). Therefore, the first cover 112 is formed in a box shape having a smaller depth than the first body 111. In addition, the peripheral wall 120 (see FIG. 4) stands upright from the outer periphery of the first flange 119 and has substantially the same size as the first cover 112 measured in the forward/rearward direction. This allows the first cover 112 to be contained in the space surrounded by the first flange 119 and the peripheral wall 120. That is, the first cover 112 is inserted into the first body 111. Therefore, the boundary between the first body 111 and the first cover 112 (that is, the joint surface between the first flange 119 and the second flange 127) is located inside the first body 111, thereby improving the waterproofness.

外盒130的第二本體131係形成盒體形狀,該盒體的一端面開放而作為第二開口133。第二本體131包含大致矩形的第三底板134(見圖4)、及從第三底板134之周緣實質上垂直於第三底板134而延伸的四個側板。如圖3所示,該四個側板由:第三左側板135、第三右側板136、第三上側板137、及第三下側板138構成。第三底板134的外表面對應至供電單元100的後表面,且其與上述的安裝表面102呈緊靠狀態。The second body 131 of the outer box 130 is formed in a box shape, and one end surface of the box body is opened as a second opening 133. The second body 131 includes a substantially rectangular third bottom plate 134 (see FIG. 4) and four side plates extending from the periphery of the third bottom plate 134 substantially perpendicular to the third bottom plate 134. As shown in FIG. 3, the four side panels are composed of a third left side panel 135, a third right side panel 136, a third upper side panel 137, and a third lower side panel 138. The outer surface of the third bottom plate 134 corresponds to the rear surface of the power supply unit 100, and it is in a close state with the above-mentioned mounting surface 102.

第三下側板138具有大致圓形的插入埠,電力電纜104及纜線200係通過該插入部而插入第二本體131中,如稍後將加以說明。在此實施例中,插入埠具有大致圓形。然而,此僅為範例,且不應解讀為限制性。替代性地,插入埠亦可具有矩形。可選地,為了改善防水性,插入埠可例如設有橡膠墊料構件,或例如可在電力電纜104及纜線200已通過插入埠後,利用油灰填充電力電纜104及纜線200的周圍而將插入埠封閉。The third lower plate 138 has a substantially circular insertion port through which the power cable 104 and the cable 200 are inserted into the second body 131, as will be described later. In this embodiment, the insertion port has a substantially circular shape. However, this is only an example and should not be construed as limiting. Alternatively, the insertion port may also have a rectangular shape. Optionally, in order to improve waterproofness, the insertion port may be provided with a rubber gasket member, or for example, after the power cable 104 and the cable 200 have passed through the insertion port, the surroundings of the power cable 104 and the cable 200 may be filled with putty. Close the plug-in port.

如圖2所示,第二蓋132形成為具有開口之盒體的形狀。第二蓋132包含大致矩形的第四底板141、及從第四底板141之周緣實質上垂直於第四底板141而延伸的四個側板。該四個側板由:第四左側板142、第四右側板143、第四上側板144、及第四下側板145(見圖4)構成。As shown in FIG. 2, the second cover 132 is formed in the shape of a box with an opening. The second cover 132 includes a substantially rectangular fourth bottom plate 141 and four side plates extending from the periphery of the fourth bottom plate 141 substantially perpendicular to the fourth bottom plate 141. The four side panels are composed of a fourth left side panel 142, a fourth right side panel 143, a fourth upper side panel 144, and a fourth lower side panel 145 (see FIG. 4).

第三左側板135及第三右側板136在朝前/朝後方向(亦即沿著第二本體131的深度)上量測的尺寸係設計成大於第四左側板142及第四右側板143在朝前/朝後方向(亦即沿著第二蓋132的深度)上量測的尺寸。因此,第二蓋132形成為具有比第二本體131更小之深度的盒體形狀。The dimensions of the third left side plate 135 and the third right side plate 136 measured in the forward/backward direction (that is, along the depth of the second body 131) are designed to be larger than the fourth left side plate 142 and the fourth right side plate 143 The size measured in the forward/backward direction (that is, along the depth of the second cover 132). Therefore, the second cover 132 is formed into a box shape having a smaller depth than the second body 131.

內盒110係嵌套於第二本體131中且安裝在外盒130的第三底板134上,使得在第一開口113以第一蓋112覆蓋的情況下,第一本體111定位較靠近第二開口133。亦即,內盒110係嵌套於外盒130的第二本體131中,使得第一本體比第一蓋112更靠近第二開口133。接著,利用螺絲將第二蓋132緊固並固定在第二本體131上,以封閉第二開口133。此容許內盒110被容納在以第二本體131及第二蓋132圍繞的氣密密封空間中,亦即在外盒130的內部空間中。當這些盒體110及130氣密密封時,改善防水性的墊料構件(未顯示)係適當地插入設置於第二本體131與第二蓋132之間。The inner box 110 is nested in the second body 131 and installed on the third bottom plate 134 of the outer box 130, so that when the first opening 113 is covered by the first cover 112, the first body 111 is positioned closer to the second opening 133. That is, the inner box 110 is nested in the second body 131 of the outer box 130 so that the first body is closer to the second opening 133 than the first cover 112. Then, the second cover 132 is fastened and fixed on the second body 131 with screws to close the second opening 133. This allows the inner box 110 to be contained in an airtight sealed space surrounded by the second body 131 and the second cover 132, that is, in the inner space of the outer box 130. When the boxes 110 and 130 are hermetically sealed, a gasket member (not shown) for improving waterproofness is appropriately inserted between the second body 131 and the second cover 132.

此配置容許第一蓋112與第一本體111之間的接合面(亦即內盒110的分界面)定位成較靠近供電單元100的後表面(亦即較靠近第二本體131的第三底板134)。另一方面,此亦容許第二蓋132與第二本體131之間的接合面(亦即外盒130的分界面)定位成較靠近供電單元100的前表面(亦即較靠近第二本體131的第二開口133)。此容許內盒110及外盒130的個別分界面彼此分開。換言之,此在兩分界面之間至少留下一定距離。因此,即使雨水滲入外盒130,在外盒130及內盒110之個別分界面之間留下的距離仍減少雨水進入內盒110的機會,因而改善其防水性的可靠度。This configuration allows the joint surface between the first cover 112 and the first body 111 (that is, the interface of the inner box 110) to be positioned closer to the rear surface of the power supply unit 100 (that is, closer to the third bottom plate of the second body 131) 134). On the other hand, this also allows the joint surface between the second cover 132 and the second body 131 (that is, the interface of the outer box 130) to be positioned closer to the front surface of the power supply unit 100 (that is, closer to the second body 131). The second opening 133). This allows the individual interface surfaces of the inner box 110 and the outer box 130 to be separated from each other. In other words, this leaves at least a certain distance between the two interfaces. Therefore, even if rainwater penetrates into the outer box 130, the distance left between the individual interface of the outer box 130 and the inner box 110 still reduces the chance of rainwater entering the inner box 110, thereby improving the reliability of its waterproofness.

此外,如圖3所示,內盒110在朝上/朝下方向上量測的尺寸約為外盒130在朝上/朝下方向上量測之尺寸的三分之二。因此,內盒110係設置在外盒130的內部空間中,使得內盒110的頂部定位靠近外盒130的頂部。換言之,不具有內盒110的空間139產生在外盒130的內部空間之下部。此空間139將用以容納電力電纜端子台140及供待連接至電力電纜端子台140的電力電纜104及纜線200通行。亦即,在外盒130的內部空間中,於內盒110下方留下讓電力電纜104通過的空間。此容許電力電纜104相對內盒110朝下延伸。所以,即使雨水沿著電力電纜104行進而進入外盒130,此仍減少沿著電力電纜104行進之雨水到達內盒110的機會。In addition, as shown in FIG. 3, the size of the inner box 110 measured in the upward/downward direction is approximately two-thirds of the size of the outer box 130 measured in the upward/downward direction. Therefore, the inner box 110 is disposed in the inner space of the outer box 130 such that the top of the inner box 110 is positioned close to the top of the outer box 130. In other words, the space 139 that does not have the inner box 110 is generated in the lower part of the inner space of the outer box 130. This space 139 will be used to accommodate the power cable terminal block 140 and the power cables 104 and cables 200 to be connected to the power cable terminal block 140 to pass. That is, in the inner space of the outer box 130, a space for the power cable 104 to pass is left under the inner box 110. This allows the power cable 104 to extend downward relative to the inner box 110. Therefore, even if rainwater travels along the power cable 104 and enters the outer box 130, this still reduces the chance of rainwater traveling along the power cable 104 reaching the inner box 110.

電力電纜端子台140係設置成鄰近內盒110之外周上的第一下側板118。亦即,電力電纜104所連接的端子台(即電力電纜端子台140)係設置在第一本體111的外周上。此減少在連接至端子台(即電力電纜端子台140)的電力電纜104與第一本體111之間造成干涉的機會。內盒110在朝上/朝下方向上量測的尺寸並非必須為外盒130在朝上/朝下方向上量測之尺寸的三分之二,而是可為外盒130在朝上/朝下方向上量測之尺寸的大約二分之一、四分之一、或任何其他分數。The power cable terminal block 140 is arranged adjacent to the first lower side plate 118 on the outer periphery of the inner box 110. That is, the terminal block (ie, the power cable terminal block 140) to which the power cable 104 is connected is provided on the outer circumference of the first body 111. This reduces the chance of interference between the power cable 104 connected to the terminal block (ie, the power cable terminal block 140) and the first body 111. The size of the inner box 110 measured in the upward/downward direction does not have to be two-thirds of the size measured in the upward/downward direction of the outer box 130, but can be the outer box 130 in the upward/downward direction Approximately one-half, one-quarter, or any other fraction of the size measured upwards.

100:供電單元 101:充電器本體 102:安裝表面 103:插頭 104:電力電纜 105:保持器 106:移動載具 107:蓄電池 108:電力網 109:支柱 110:內盒 111:第一本體 112:第一蓋 113:第一開口 114:第一底板 115:第一左側板 116:第一右側板 117:第一上側板 118:第一下側板 119:第一凸緣 120:周邊壁 121:第一螺孔 122:第二底板 123:第二左側板 124:第二右側板 125:第二上側板 126:第二下側板 127:第二凸緣 129:切除部 130:外盒 131:第二本體 132:第二蓋 133:第二開口 134:第三底板 135:第三左側板 136:第三右側板 137:第三上側板 138:第三下側板 139:空間 140:電力電纜端子台 141:第四底板 142:第四左側板 143:第四右側板 144:第四上側板 145:第四下側板 150:第一板 151:第二板 156:輸入端子 157:輸出端子 158:電力線 159:控制單元 161:通訊纜線 170:繼電器 180:熱傳導構件 200:纜線100: power supply unit 101: Charger body 102: mounting surface 103: plug 104: Power cable 105: retainer 106: Mobile Vehicle 107: Battery 108: Power grid 109: Pillar 110: inner box 111: The first body 112: first cover 113: First opening 114: first floor 115: first left side panel 116: first right side panel 117: The first upper side panel 118: The first lower side panel 119: First flange 120: Peripheral Wall 121: first screw hole 122: second bottom plate 123: second left side panel 124: second right side panel 125: second upper side panel 126: second lower side panel 127: second flange 129: Resection 130: Outer box 131: The second body 132: second cover 133: second opening 134: Third Floor 135: Third left side panel 136: third right side panel 137: The third upper side panel 138: Third lower side panel 139: Space 140: Power cable terminal block 141: Fourth Floor 142: Fourth left side panel 143: Fourth right side panel 144: The fourth upper side panel 145: Fourth lower side panel 150: first board 151: second board 156: Input terminal 157: output terminal 158: Power Line 159: control unit 161: Communication Cable 170: Relay 180: Heat conduction member 200: cable

圖1為依據例示實施例之供電單元的整體立體圖; 圖2為充電器本體的分解立體圖,該充電器本體形成依據例示實施例之供電單元的一部分; 圖3為顯示當依據例示實施例之供電單元的外盒體之第二蓋開啟時、該供電單元之外觀的前視圖; 圖4為沿圖3之平面A-A取得、且顯示依據例示實施例之供電單元之配置的剖面圖;且 圖5為依據例示實施例之供電單元的電路圖。FIG. 1 is an overall perspective view of a power supply unit according to an exemplary embodiment; FIG. 2 is an exploded perspective view of a charger body, which forms a part of a power supply unit according to an exemplary embodiment; 3 is a front view showing the appearance of the power supply unit when the second cover of the outer box body of the power supply unit according to the illustrated embodiment is opened; 4 is a cross-sectional view taken along plane A-A of FIG. 3 and showing the configuration of the power supply unit according to the exemplary embodiment; and Fig. 5 is a circuit diagram of a power supply unit according to an exemplary embodiment.

110:內盒 110: inner box

111:第一本體 111: The first body

112:第一蓋 112: first cover

114:第一底板 114: first floor

116:第一右側板 116: first right side panel

117:第一上側板 117: The first upper side panel

119:第一凸緣 119: First flange

120:周邊壁 120: Peripheral Wall

121:第一螺孔 121: first screw hole

122:第二底板 122: second bottom plate

123:第二左側板 123: second left side panel

124:第二右側板 124: second right side panel

125:第二上側板 125: second upper side panel

126:第二下側板 126: second lower side panel

127:第二凸緣 127: second flange

129:切除部 129: Resection

130:外盒 130: Outer box

131:第二本體 131: The second body

132:第二蓋 132: second cover

133:第二開口 133: second opening

135:第三左側板 135: Third left side panel

136:第三右側板 136: third right side panel

137:第三上側板 137: The third upper side panel

140:電力電纜端子台 140: Power cable terminal block

141:第四底板 141: Fourth Floor

142:第四左側板 142: Fourth left side panel

143:第四右側板 143: Fourth right side panel

144:第四上側板 144: The fourth upper side panel

150:第一板 150: first board

151:第二板 151: second board

170:繼電器 170: Relay

180:熱傳導構件 180: Heat conduction member

Claims (5)

一種供電單元,用於對一電力電纜輸出電力,以對用作一移動載具之電力源的一蓄電池充電,該供電單元包含: 一內盒,容納其上實施電子零件的一板;及 一外盒,將該內盒嵌套於其中, 該內盒包含: 一第一本體,具有一第一開口;及 一第一蓋,封閉該第一開口,且具有比該第一本體更小的深度, 該外盒包含: 一第二本體,具有一第二開口;及 一第二蓋,封閉該第二開口,且具有比該第二本體更小的深度, 該內盒係相對於該第二本體而設置,使得該內盒的該第一本體定位成比該內盒的該第一蓋更靠近該第二開口。A power supply unit for outputting power to a power cable to charge a storage battery used as a power source for a mobile vehicle. The power supply unit includes: An inner box containing a board on which electronic components are implemented; and An outer box with the inner box nested in it, The inner box contains: A first body having a first opening; and A first cover that closes the first opening and has a smaller depth than the first body, The box contains: A second body having a second opening; and A second cover that closes the second opening and has a smaller depth than the second body, The inner box is arranged relative to the second body, so that the first body of the inner box is positioned closer to the second opening than the first cover of the inner box. 如請求項1之供電單元,其中該板係安裝於該第一本體之一底部上。Such as the power supply unit of claim 1, wherein the board is installed on a bottom of the first body. 如請求項1或2之供電單元,其中該電力電纜所連接的一端子台係設置在該第一本體的一外周上。Such as the power supply unit of claim 1 or 2, wherein a terminal block to which the power cable is connected is arranged on an outer circumference of the first body. 如請求項1或2之供電單元,其中在該外盒的一內部空間中,於該內盒下方留下供該電力電纜通過的一空間。Such as the power supply unit of claim 1 or 2, wherein in an internal space of the outer box, a space for the power cable to pass is left under the inner box. 如請求項1或2之供電單元,其中該第一蓋係置入該第一本體中。For example, the power supply unit of claim 1 or 2, wherein the first cover is inserted into the first body.
TW109110212A 2019-03-29 2020-03-26 Power supply unit TWI745904B (en)

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