JP7447231B1 - Power receiving and transforming equipment at electric stations and its construction method - Google Patents

Power receiving and transforming equipment at electric stations and its construction method Download PDF

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JP7447231B1
JP7447231B1 JP2022200471A JP2022200471A JP7447231B1 JP 7447231 B1 JP7447231 B1 JP 7447231B1 JP 2022200471 A JP2022200471 A JP 2022200471A JP 2022200471 A JP2022200471 A JP 2022200471A JP 7447231 B1 JP7447231 B1 JP 7447231B1
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power receiving
building
transforming equipment
devices
transforming
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JP2024085762A (en
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智章 藤田
祐規 加藤
祥大 今野
建 平塚
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Tohoku Electric Manufacturing Co Ltd
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Abstract

【課題】建設における手間が低減され、建設に要する工期が短縮される電気所の受変電設備を提供すること。【解決手段】電気所の受変電設備は、建屋及び装置群を備える。建屋は、複数のコンテナハウスを備え、建屋では、複数のコンテナハウスが互に対して結合される。装置群は、複数の受変電機器及び複数の配電盤を含む複数の装置から構成され、建屋の内部では、複数の装置が複数のコンテナハウスに分割されて収納される。【選択図】図3An object of the present invention is to provide power receiving and transforming equipment for an electric station that reduces the labor involved in construction and shortens the period required for construction. A power receiving and transforming facility at an electric station includes a building and a group of devices. The building includes a plurality of container houses, and the plurality of container houses are connected to each other in the building. The device group is composed of a plurality of devices including a plurality of power receiving and transforming equipment and a plurality of switchboards, and inside the building, the plurality of devices are divided and housed in a plurality of container houses. [Selection diagram] Figure 3

Description

本発明は、電気所の受変電設備及びその建設方法に関する。 TECHNICAL FIELD The present invention relates to power receiving and transforming equipment for an electric station and a method for constructing the same.

変電所、開閉所及び発電所等の電気所では、受変電設備での電圧変換によって高い電圧を低下してから、電圧を低下させた電気が受変電設備から送電される。非特許文献1の受変電設備では、建屋の内部に配電盤室が形成され、複数の受変電機器及び複数の配電盤を含む受変電設備で必要となる複数の装置が、配電盤室に配置される。 BACKGROUND ART In electrical stations such as substations, switching stations, and power plants, high voltages are lowered by voltage conversion in power receiving and transforming equipment, and then the reduced voltage electricity is transmitted from the power receiving and transforming equipment. In the power receiving and transforming equipment of Non-Patent Document 1, a switchboard room is formed inside a building, and a plurality of devices required for the power receiving and transforming equipment including a plurality of power receiving and transforming devices and a plurality of switchboards are arranged in the switchboard room.

前述のような受変電設備の建設では、電気所の敷地内に建屋を建築する。そして、複数の受変電機器及び複数の配電盤を含む装置を、工場から電気所に輸送し、搬送された複数の装置を、建屋の内部の配電盤室に設置する。そして、建屋の内部に設置された複数の装置を、ケーブル等を介して電気的に接続するとともに、建屋の内部の複数の装置を、ケーブル等を介して建屋の外部の装置等と電気的に接続する。そして、複数の装置が電気的に接続された状態で、複数の装置の性能試験を行い、複数の装置のそれぞれについて動作確認が行われる。そして、複数の装置についての動作確認を行った後、発電所等から電力を供給する電力系統に、受変電設備が接続され、受変電設備の運用が開始される。 When constructing power receiving and substation equipment as described above, a building is constructed on the premises of an electric station. Then, devices including a plurality of power receiving and transforming devices and a plurality of switchboards are transported from the factory to an electrical power station, and the transported devices are installed in a switchboard room inside the building. Then, multiple devices installed inside the building are electrically connected via cables, etc., and multiple devices inside the building are electrically connected to devices outside the building via cables, etc. Connecting. Then, in a state where the plurality of devices are electrically connected, a performance test is performed on the plurality of devices to check the operation of each of the plurality of devices. After confirming the operation of the plurality of devices, the power receiving and transforming equipment is connected to a power system that supplies power from a power plant or the like, and operation of the power receiving and transforming equipment is started.

前述のような電気所の受変電設備では、建設における手間を低減し、建設に要する工期を短縮することが、求められている。 In the above-mentioned power receiving and transforming equipment of electric stations, it is required to reduce the labor involved in construction and shorten the construction period required for construction.

澤根 慧,千葉 孝,“電気所新設・改良工事における現地工事省力化に向けたコンテナ形キュービクルの開発”,電気評論2020年12月号,電気評論社,2020年12月17日,P56-P59Kei Sawane, Takashi Chiba, “Development of container-shaped cubicle for labor saving on-site construction in new construction and improvement works of electrical stations”, Denki Hyoron December 2020 issue, Denki Hyoronsha, December 17, 2020, P56- P59

本発明は前記課題を解決するためになされたものであり、その目的とするところは、建設における手間が低減され、建設に要する工期が短縮される電気所の受変電設備、及び、その受変電設備の建設方法を提供することにある。 The present invention has been made to solve the above-mentioned problems, and its purpose is to provide power receiving and transforming equipment for an electric station, which reduces the labor involved in construction and shortens the construction period, and the power receiving and transforming equipment thereof. The purpose is to provide a method for constructing facilities.

前記目的を達成するため、本発明のある態様では、電気所の受変電設備は、複数のコンテナハウスを備え、前記複数のコンテナハウスが互いに対して結合される建屋と、前記複数のコンテナハウスのそれぞれに1つずつ配置される状態に、前記建屋の内部において前記複数のコンテナハウスに分割されて収納される複数の装置ユニットと、を備える。前記複数の装置ユニットのそれぞれは、フレームと、互に対して隔壁されることなく前記フレームに一体に組付けられる複数の装置と、を備える。前記複数の装置ユニットの1つは、複数の受変電機器が、前記複数の装置として、互に対して隔壁されることなく、前記フレームに一体に組付けられる受変電器ユニットである。前記受変電器ユニットでは、前記複数の受変電機器が互に対して隔離されないことにより、変圧器二次側部分、母線連絡部分又は母線接続部分、所内変圧部分、及び、複数の配電線部分が、互に対して隔壁されない状態で形成される。 In order to achieve the above object, in one aspect of the present invention, the power receiving and transforming equipment of an electric station includes a plurality of container houses, a building to which the plurality of container houses are coupled to each other, and a building to which the plurality of container houses are connected. A plurality of device units are provided, one for each, and divided and housed in the plurality of container houses inside the building . Each of the plurality of device units includes a frame and a plurality of devices that are integrally assembled to the frame without being separated from each other. One of the plurality of device units is a power receiving and transforming unit in which a plurality of power receiving and transforming devices are integrally assembled to the frame without being partitioned from each other as the plurality of devices. In the power receiving transformer unit, the plurality of power receiving and transforming devices are not isolated from each other, so that the transformer secondary side part, the bus bar connecting part or the bus bar connecting part, the station transformer part, and the plurality of distribution line parts are separated from each other. , are formed without partition walls from each other.

本発明によれば、建設における手間が低減され、建設に要する工期が短縮される電気所の受変電設備、及び、その受変電設備の建設方法を提供することができる。 Advantageous Effects of Invention According to the present invention, it is possible to provide a power receiving and transforming facility for an electric station that reduces the labor involved in construction and shortens the construction period, and a method for constructing the power receiving and transforming facility.

図1は、実施形態における電気所での受変電設備の建設後の状態の一例を示す斜視図である。FIG. 1 is a perspective view showing an example of a state after construction of power receiving and transforming equipment at an electric station in an embodiment. 図2は、実施形態における電気所での受変電設備の建設後の状態の図1とは別の一例を示す斜視図である。FIG. 2 is a perspective view showing an example of the state after construction of the power receiving and transforming equipment at the electric station in the embodiment, which is different from FIG. 1. 図3は、実施形態において、ある種類の受変電設備の建屋の内部を、高さ方向の上側から視た状態で示す概略図である。FIG. 3 is a schematic diagram showing the inside of a building of a certain type of power receiving and transforming equipment as viewed from above in the height direction, in the embodiment. 図4は、実施形態において、図3とは別のある種類の受変電設備の建屋の内部を、高さ方向の上側から視た状態で示す概略図である。FIG. 4 is a schematic diagram showing the inside of a building of a certain type of power receiving and transforming equipment different from that shown in FIG. 3, as viewed from above in the height direction, in the embodiment. 図5は、実施形態において、電気所で適用される電力系統の一例を示す単線結線図である。FIG. 5 is a single-line diagram showing an example of a power system applied at an electric station in the embodiment. 図6は、実施形態の受変電設備において建屋を形成する複数のコンテナハウスの1つの内部構成の一例を示す斜視図である。FIG. 6 is a perspective view showing an example of the internal configuration of one of the plurality of container houses forming a building in the power receiving and transforming equipment of the embodiment. 図7は、実施形態の受変電設備に設けられる受変電機器ユニットの構成の一例を示す斜視図である。FIG. 7 is a perspective view showing an example of the configuration of a power receiving and transforming equipment unit provided in the power receiving and transforming equipment of the embodiment. 図8は、実施形態の受変電設備において建屋を形成する複数のコンテナハウスの図6とは別の1つの内部構成の一例を示す斜視図である。FIG. 8 is a perspective view showing an example of an internal configuration different from that shown in FIG. 6 of a plurality of container houses forming a building in the power receiving and transforming equipment of the embodiment. 図9は、実施形態の受変電設備の建設において、複数のコンテナハウスのある1つを搬送している状態を概略的に示す斜視図である。FIG. 9 is a perspective view schematically showing a state in which one of a plurality of container houses is being transported in the construction of the power receiving and transforming equipment of the embodiment.

以下、実施形態について図面を参照して説明する。 Hereinafter, embodiments will be described with reference to the drawings.

実施形態等では、変電所、開閉所及び発電所等の電気所で用いられる受変電設備が、提供される。ある一例では、受変電設備は、配電用変電所において用いられる。この場合、受変電設備での電圧変換によって、66kVの電圧が、6kVの電圧に低下する。そして、6kVに電圧を低下させた電気が、配電線を通して、配電用変電所から送電される。 In the embodiments, power receiving and substation equipment used in electrical stations such as substations, switching stations, and power plants is provided. In one example, the power receiving and substation equipment is used in a power distribution substation. In this case, the voltage of 66 kV is reduced to a voltage of 6 kV due to voltage conversion in the power receiving and transforming equipment. Then, the electricity whose voltage has been lowered to 6 kV is transmitted from the distribution substation through the distribution line.

図1は、電気所における受変電設備1の建設後の状態の一例を示し、図2は、電気所における受変電設備1の建設後の状態の図1とは別の一例を示す。図1の一例では、電気所の敷地内に2種類の受変電設備1A,1Bが建設され、図2の一例では、電気所の敷地内に1種類の受変電設備1Aが建設される。受変電設備1A,1Bを含む受変電設備1では、鉛直方向に相当する高さ方向(矢印Zで示す方向)、鉛直方向に対して交差する(直交又は略直交する)第1の水平方向に相当する横方向(矢印Yで示す方向)、及び、鉛直方向及び第1の水平方向の両方に対して交差する(直交又は略直交する)第2の水平方向に相当する奥行方向(矢印Xで示す方向)が、規定される。 FIG. 1 shows an example of a state of the power receiving and transforming equipment 1 at an electric station after construction, and FIG. 2 shows an example of the state of the power receiving and transforming equipment 1 at an electric station after construction, different from FIG. 1. In the example of FIG. 1, two types of power receiving and transforming equipment 1A and 1B are constructed within the premises of an electric station, and in the example of FIG. 2, one type of power receiving and transforming equipment 1A is constructed within the premises of an electric station. In the power receiving and transforming equipment 1 including the power receiving and transforming equipment 1A and 1B, in the height direction corresponding to the vertical direction (the direction indicated by arrow Z), and in the first horizontal direction that intersects (orthogonal or approximately orthogonal to) the vertical direction. The corresponding horizontal direction (direction indicated by arrow Y) and the depth direction (direction indicated by arrow direction) is defined.

受変電設備1は、架台2を備える。ある一例では、高さ方向に沿った架台2の寸法は、1500mm程度となり、別のある一例では、高さ方向に沿った架台2の寸法は、2000mm程度となる。受変電設備1では、架台2上に、建屋3が設置される。このため、建屋3は、高さ方向に沿った架台2の寸法だけ、地面から鉛直上側に離れて建設される。なお、建屋3でも、受変電設備1と同様に、高さ方向、横方向及び奥行方向が、規定される。 The power receiving and transforming equipment 1 includes a pedestal 2 . In one example, the dimension of the pedestal 2 along the height direction is about 1500 mm, and in another example, the dimension of the pedestal 2 along the height direction is about 2000 mm. In the power receiving and transforming equipment 1, a building 3 is installed on a pedestal 2. Therefore, the building 3 is constructed vertically upward from the ground by the dimension of the pedestal 2 along the height direction. Note that, in the building 3 as well, the height direction, lateral direction, and depth direction are defined similarly to the power receiving and transforming equipment 1.

また、実施形態では、建屋3は、複数のコンテナハウスCを備え、建屋3では、複数のコンテナハウスCが互に対して結合される。図1及び図2の一例では、受変電設備1のそれぞれの建屋3において、複数のコンテナハウスCは、奥行方向に並んだ状態で、互い対して結合される。受変電設備1Aでは、3つのコンテナハウスC1~C3を結合することにより、建屋3が組立てられる。そして、受変電設備1Bでは、2つのコンテナハウスC1,C2を結合することにより、建屋3が組立てられる。したがって、コンテナハウスC1,C2は、受変電設備1A,1Bに共通して用いられ、コンテナハウスC3は、受変電設備1Aのみに用いられる。なお、コンテナハウスCのそれぞれの壁部は、例えば、不燃性及び高い断熱性を有するパネル、及び、ガルバリウム鋼板(登録商標)等の耐久性の高い金属サイディングから形成される。また、受変電設備1Aでは、壁部は、コンテナハウスC1,C3に取付けられ、受変電設備1Bでは、壁部は、コンテナハウスC1,C2に取付けられる。 Further, in the embodiment, the building 3 includes a plurality of container houses C, and in the building 3, the plurality of container houses C are coupled to each other. In the example of FIGS. 1 and 2, in each building 3 of the power receiving and transforming equipment 1, a plurality of container houses C are lined up in the depth direction and coupled to each other. In the power receiving and transforming equipment 1A, a building 3 is assembled by joining three container houses C1 to C3. In the power receiving and transforming equipment 1B, the building 3 is assembled by joining the two container houses C1 and C2. Therefore, the container houses C1 and C2 are used in common for the power receiving and transforming equipment 1A and 1B, and the container house C3 is used only for the power receiving and transforming equipment 1A. Note that each wall of the container house C is formed of, for example, a panel that is nonflammable and has high heat insulation properties, and highly durable metal siding such as galvalume steel plate (registered trademark) . Further, in the power receiving and transforming equipment 1A, the wall portions are attached to the container houses C1 and C3, and in the power receiving and transforming equipment 1B, the walls are attached to the container houses C1 and C2.

図3は、ある種類の受変電設備1Aの建屋3の内部を示し、図4は、図3とは別のある種類の受変電設備1Bの建屋3の内部を示す。図3及び図4は、高さ方向の上側から視た状態で、建屋3の内部を概略的に示す。図3及び図4等に示すように、受変電設備1では、建屋3の内部に、配電盤室5が形成される。建屋3の内部の配電盤室5には、装置群10が収納される。装置群10は、受変電設備1において必要となる複数の装置から構成される。受変電設備1では、装置群10を構成する複数の装置は、複数のコンテナハウスCに分割されて、建屋3の内部に収納される。 3 shows the inside of a building 3 of a certain type of power receiving and transforming equipment 1A, and FIG. 4 shows the inside of a building 3 of a certain type of power receiving and transforming equipment 1B different from that shown in FIG. 3 and 4 schematically show the inside of the building 3 as viewed from above in the height direction. As shown in FIGS. 3, 4, etc., in the power receiving and transforming equipment 1, a switchboard room 5 is formed inside the building 3. A device group 10 is housed in a switchboard room 5 inside the building 3. The device group 10 is composed of a plurality of devices required in the power receiving and transforming equipment 1. In the power receiving and transforming equipment 1, a plurality of devices constituting the device group 10 are divided into a plurality of container houses C and housed inside the building 3.

装置群10を構成する複数の装置は、複数の受変電機器及び複数の配電盤を備える。複数の受変電機器は、遮断器及び開閉器等の電力系統の主回路に配置される機器を含む。また、複数の配電盤は、電力系統の主回路に配置されず、主回路の状態の監視及び制御等に用いられる。複数の配電盤は、短絡及び地絡等から機器を保護する保護リレー装置、主回路における電気の流れ等を監視及び制御する監視制御装置、及び、これらの装置に付帯する装置を含む。 The plurality of devices constituting the device group 10 include a plurality of power receiving and transforming devices and a plurality of switchboards. The plurality of power receiving and transforming devices include devices arranged in the main circuit of the power system, such as circuit breakers and switches. Further, the plurality of switchboards are not placed in the main circuit of the power system, but are used for monitoring and controlling the state of the main circuit. The plurality of switchboards include a protective relay device that protects equipment from short circuits, ground faults, etc., a monitoring and control device that monitors and controls the flow of electricity in the main circuit, and devices incidental to these devices.

図5は、電気所である配電用変電所において適用される電力系統の一例を単線結線図で示す。図5は、図1の一例のように2種類の受変電設備1A,1Bが電気所に建設される場合について、単線結線図が示される。また、図5では、電力系統の主回路に相当する部分のみを示し、主回路の状態の監視及び制御に用いられる機器等は省略して示す。このため、受変電設備1A,1Bの建屋3に収納される装置群10の中で複数の配電盤に相当する装置等は、図5において省略される。また、図5の一例では、破線α1で囲まれた範囲が、受変電設備(第1の受変電設備)1Aの建屋3の内部に収納され、破線α2で囲まれた範囲が、受変電設備(第2の受変電設備)1Bの建屋3の内部に収納される。そして、破線α1,α2のいずれにも囲まれていない範囲は、受変電設備1A,1Bの建屋3の外部に配置される。 FIG. 5 shows, in a single line diagram, an example of a power system applied to a power distribution substation, which is an electric station. FIG. 5 shows a single line diagram for a case where two types of power receiving and transforming equipment 1A and 1B are constructed at an electric station as in the example of FIG. Further, in FIG. 5, only the portion corresponding to the main circuit of the power system is shown, and equipment used for monitoring and controlling the state of the main circuit is omitted. Therefore, devices corresponding to a plurality of switchboards among the device group 10 housed in the building 3 of the power receiving and transforming equipment 1A, 1B are omitted in FIG. Further, in the example of FIG. 5, the range surrounded by the broken line α1 is housed inside the building 3 of the power receiving and transforming equipment (first power receiving and transforming equipment) 1A, and the range surrounded by the broken line α2 is housed inside the power receiving and transforming equipment (first power receiving and transforming equipment) 1A. (Second power receiving and transforming equipment) It is housed inside the building 3 of 1B. The range not surrounded by either of the broken lines α1 and α2 is arranged outside the building 3 of the power receiving and transforming equipment 1A, 1B.

図5の一例では、受変電設備1Aに対応して変圧部分11Aが、受変電設備1Bに対応して変圧部分11Bが、それぞれ、変圧部分11として設けられる。変圧部分11のそれぞれは、変圧器20、変圧器一次側部分21及び変圧器二次側部分22を備える。変圧部分11のそれぞれは、変圧器20によって、変圧器一次側部分21の高い電圧の電気が降圧されて、変圧器二次側部分22に供給される。例えば、変圧器一次側部分21において66kVとなる電気が、変圧器20によって6kVに降圧され、変圧器二次側部分22に供給される。変圧部分11Aでは、変圧器20及び変圧器一次側部分21は、受変電設備1Aの建屋3の外部に配置され、変圧器二次側部分22は、受変電設備1Aの建屋3の内部に収納される。そして、変圧部分11Bでは、変圧器20及び変圧器一次側部分21は、受変電設備1Bの建屋3の外部に配置され、変圧器二次側部分22は、受変電設備1Bの建屋3の内部に収納される。 In the example of FIG. 5, a transformer section 11A is provided corresponding to the power receiving and transforming equipment 1A, and a transformer part 11B is provided as the transformer part 11 corresponding to the power receiving and transforming equipment 1B. Each of the transformer sections 11 includes a transformer 20, a transformer primary section 21, and a transformer secondary section 22. In each of the transformer sections 11 , high voltage electricity of the transformer primary side section 21 is stepped down by the transformer 20 and is supplied to the transformer secondary side section 22 . For example, electricity that is 66 kV in the transformer primary side portion 21 is stepped down to 6 kV by the transformer 20 and is supplied to the transformer secondary side portion 22. In the transformer section 11A, the transformer 20 and the transformer primary side section 21 are arranged outside the building 3 of the power receiving and transforming equipment 1A, and the transformer secondary side part 22 is housed inside the building 3 of the power receiving and transforming equipment 1A. be done. In the transformer section 11B, the transformer 20 and the transformer primary side section 21 are arranged outside the building 3 of the power receiving and transforming equipment 1B, and the transformer secondary side part 22 is arranged inside the building 3 of the power receiving and transforming equipment 1B. is stored in.

変圧部分11のそれぞれでは、変圧器一次側部分21は、変流器23及び遮断器25を備える。また、変圧部分11のそれぞれでは、変圧器二次側部分22は、変流器26、遮断器27及び避雷器28を備える。受変電設備1のそれぞれでは、変流器26、遮断器27及び避雷器28のそれぞれは、建屋3の内部に収納される受変電機器であり、建屋3の内部に収納される前述の装置群10の一部を構成する。 In each of the transformer sections 11 , the transformer primary section 21 comprises a current transformer 23 and a circuit breaker 25 . Further, in each of the transformer sections 11, the transformer secondary section 22 includes a current transformer 26, a circuit breaker 27, and a lightning arrester 28. In each of the power receiving and transforming equipment 1, each of the current transformer 26, the circuit breaker 27, and the lightning arrester 28 is a power receiving and transforming device housed inside the building 3, and the above-mentioned device group 10 housed inside the building 3. constitutes a part of

また、図5の一例では、変圧部分11Aに一次側の電気(例えば66kVの電気)を送電する送電線部分12A、及び、変圧部分11Bに一次側の電気を送電する送電線部分12Bが、それぞれ、送電線部分12として設けられる。送電線部分12のそれぞれは、断路器31,32、遮断器33及び変流器34を備える。また、送電線部分12A,12Bは、一次側母線13を間に介して、互いに対して電気的に接続される。一次側母線13は、変圧部分11Aと送電線部分12Aとの間において、変圧部分11Aへの電気経路に接続され、変圧部分11Bと送電線部分12Bとの間において、変圧部分11Bへの電気経路に接続される。一次側母線は、例えば、66kV母線である。 Further, in the example of FIG. 5, a power transmission line portion 12A that transmits primary side electricity (for example, 66 kV electricity) to the transformation portion 11A, and a power transmission line portion 12B that transmits primary side electricity to the transformation portion 11B, respectively. , is provided as a power transmission line section 12. Each of the power transmission line sections 12 includes disconnectors 31 and 32, a circuit breaker 33, and a current transformer 34. Further, the power transmission line portions 12A and 12B are electrically connected to each other with the primary bus bar 13 interposed therebetween. The primary busbar 13 is connected to an electrical path to the transformer section 11A between the transformer section 11A and the power transmission line section 12A, and is connected to an electrical path to the transformer section 11B between the transformer section 11B and the power transmission line section 12B. connected to. The primary bus bar is, for example, a 66 kV bus bar.

また、図5の一例では、受変電設備1Aの建屋3の内部を通って、母線36Aが延設され、受変電設備1Bの建屋3の内部を通って、母線36Bが延設される。母線36A,36Bのそれぞれは、例えば、6kV母線である。また、図5の一例では、受変電設備1Aの建屋3の内部に、母線連絡部分15Aが収納され、受変電設備1Bの建屋3の内部に、母線接続部分15Bが収納される。母線連絡部分15Aは、母線連絡遮断器37を備え、母線36Aの一部及び母線連絡遮断器37から構成される。母線接続部分15Bは、母線36Bの一部から構成される。母線36Aは、母線連絡遮断器37を介して、母線36Bに電気的に接続される。 Further, in the example of FIG. 5, a bus bar 36A is extended through the inside of the building 3 of the power receiving and transforming equipment 1A, and a bus bar 36B is extended through the inside of the building 3 of the power receiving and transforming equipment 1B. Each of the busbars 36A and 36B is, for example, a 6kV busbar. Further, in the example of FIG. 5, the busbar connecting portion 15A is housed inside the building 3 of the power receiving and transforming equipment 1A, and the busbar connecting portion 15B is housed inside the building 3 of the power receiving and transforming equipment 1B. The busbar communication portion 15A includes a busbar communication breaker 37, and is composed of a part of the busbar 36A and the busbar communication breaker 37. The busbar connection portion 15B is formed from a part of the busbar 36B. The busbar 36A is electrically connected to the busbar 36B via a busbar connection breaker 37.

また、受変電設備1Aの建屋3の内部では、変圧部分11Aの変圧器二次側部分22が母線36Aに電気的に接続され、受変電設備1Bの建屋3の内部では、変圧部分11Bの変圧器二次側部分22が母線36Bに電気的に接続される。そして、受変電設備1Aでは、母線連絡遮断器37は、建屋3の内部に収納される受変電機器であり、建屋3の内部に収納される前述の装置群10の一部を構成する。 In addition, inside the building 3 of the power receiving and transforming equipment 1A, the transformer secondary side part 22 of the transformer part 11A is electrically connected to the bus bar 36A, and inside the building 3 of the power receiving and transforming equipment 1B, the transformer of the transformer part 11B is electrically connected to the bus bar 36A. The secondary side portion 22 is electrically connected to the bus bar 36B. In the power receiving and transforming equipment 1A, the busbar connection circuit breaker 37 is a power receiving and transforming device housed inside the building 3, and constitutes a part of the above-mentioned device group 10 housed inside the building 3.

図5の一例では、電気所の所内へ電源を供給するための所内変圧部分16として、所内変圧部分16A,16Bが設けられる。そして、図5の一例では、配電線部分17として、複数の配電線部分17A、及び、複数の配電線部分17Bが設けられる。所内変圧部分16A及び複数の配電線部分17Aのそれぞれは、受変電設備1Aの建屋3の内部に収納され、受変電設備1Aの建屋3の内部では、所内変圧部分16A及び複数の配電線部分17Aのそれぞれは、母線36Aに接続される。また、所内変圧部分16B及び複数の配電線部分17Bのそれぞれは、受変電設備1Bの建屋3の内部に収納され、受変電設備1Bの建屋3の内部では、所内変圧部分16B及び複数の配電線部分17Bのそれぞれは、母線36Bに接続される。 In an example of FIG. 5, in-house transformer parts 16A and 16B are provided as the in-house transformer part 16 for supplying power to the inside of an electric station. In the example of FIG. 5, the distribution line portion 17 includes a plurality of distribution line portions 17A and a plurality of distribution line portions 17B. Each of the station transformer section 16A and the plurality of distribution line sections 17A is housed inside the building 3 of the power receiving and transforming equipment 1A. are connected to bus bar 36A. Further, each of the station transformer section 16B and the plurality of distribution line sections 17B is housed inside the building 3 of the power receiving and transforming equipment 1B, and inside the building 3 of the power receiving and transforming equipment 1B, the station transformer section 16B and the plurality of distribution lines Each of portions 17B is connected to bus bar 36B.

所内変圧部分16のそれぞれは、所内変圧器38を備え、配電線部分17のそれぞれは、変流器41,42及び遮断器43を備える。受変電設備1のそれぞれでは、所内変圧部分16の所内変圧器38、及び、複数の配電線部分17の変流器41,42及び遮断器43のそれぞれは、建屋3の内部に収納される受変電機器であり、建屋3の内部に収納される前述の装置群10の一部を構成する。 Each of the station transformer sections 16 includes a station transformer 38 , and each of the distribution line sections 17 includes current transformers 41 , 42 and a circuit breaker 43 . In each of the power receiving and transforming equipment 1 , the station transformer 38 of the station transformer section 16 and the current transformers 41 , 42 and circuit breakers 43 of the plurality of distribution line sections 17 are installed in a receiver housed inside the building 3 . It is a substation device and constitutes a part of the above-mentioned device group 10 housed inside the building 3.

図6は、受変電設備1において建屋3を形成する複数のコンテナハウスの1つであるコンテナハウスC1の内部構成を示す。図3、図4及び図6に示すように、受変電設備1のそれぞれでは、コンテナハウスC1の内部に、受変電機器ユニット50が配置及び収納される。したがって、コンテナハウスC1は、受変電機器ユニット50が収納される受変電機器用ハウスとなる。 FIG. 6 shows the internal configuration of a container house C1, which is one of a plurality of container houses forming the building 3 in the power receiving and transforming equipment 1. As shown in FIGS. 3, 4, and 6, in each of the power receiving and transforming equipment 1, a power receiving and transforming equipment unit 50 is arranged and housed inside the container house C1. Therefore, the container house C1 becomes a house for power receiving and transforming equipment in which the power receiving and transforming equipment unit 50 is housed.

図7は、受変電機器ユニット50の構成の一例を示す。図6及び図7等に示すように、受変電設備1AにおいてコンテナハウスC1に収納される受変電機器ユニット50Aでは、前述した変圧器二次側部分22、母線連絡部分15A、所内変圧部分16及び複数の配電線部分17が、1つのフレーム51に一体に組付けられ、1つのフレーム51の内部に一括して収納される。同様に、受変電設備1BにおいてコンテナハウスC1に収納される受変電機器ユニット50Bでは、前述した変圧器二次側部分22、母線接続部分15B、所内変圧部分16及び複数の配電線部分17が、1つのフレーム51に一体に組付けられ、1つのフレーム51の内部に一括して収納される。 FIG. 7 shows an example of the configuration of the power receiving and transforming equipment unit 50. As shown in FIGS. 6, 7, etc., in the power receiving and transforming equipment unit 50A housed in the container house C1 in the power receiving and transforming equipment 1A, the above-mentioned transformer secondary section 22, bus bar connection section 15A, station transformer section 16, A plurality of power distribution line portions 17 are integrally assembled to one frame 51 and housed inside one frame 51 all at once. Similarly, in the power receiving and transforming equipment unit 50B housed in the container house C1 in the power receiving and transforming equipment 1B, the transformer secondary side portion 22, the busbar connection portion 15B, the in-house transformer portion 16, and the plurality of distribution line portions 17 are as follows: They are assembled into one frame 51 and housed all at once inside one frame 51.

受変電機器ユニット50Aでは、変圧器二次側部分22、母線連絡部分15A、所内変圧部分16及び複数の配電線部分17のそれぞれが鉄の筐体に収納される構成である複数のキュービクルが設けられる構成とは異なり、変圧器二次側部分22、母線連絡部分15A、所内変圧部分16及び複数の配電線部分17は、壁等によって互いに対して隔壁されず、互いに対して分離されていない。同様に、受変電機器ユニット50Bでは、変圧器二次側部分22、母線接続部分15B、所内変圧部分16及び複数の配電線部分17は、壁等によって互いに対して隔壁されず、互いに対して分離されていない。 The power receiving and transforming equipment unit 50A includes a plurality of cubicles in which the transformer secondary side part 22, the busbar communication part 15A, the station transformer part 16, and the plurality of distribution line parts 17 are each housed in an iron casing. Unlike the structure shown in FIG. Similarly, in the power receiving and transforming equipment unit 50B, the transformer secondary side portion 22, the busbar connection portion 15B, the station transformer portion 16, and the plurality of distribution line portions 17 are not separated from each other by a wall or the like, but are separated from each other. It has not been.

前述のような構成であるため、受変電機器ユニット50Aでは、変流器26,41,42、遮断器27,43、母線連絡遮断器37及び所内変圧器38等の装置群10の一部を構成する複数の受変電機器が、互いに対して隔壁されることなく、フレーム51に一体に組付けられる。同様に、受変電機器ユニット50Bでも、装置群10の一部を構成する複数の受変電機器が、互いに対して隔壁されることなく、フレーム51に一体に組付けられる。したがって、受変電設備1のそれぞれでは、受変電機器用ハウスであるコンテナハウスC1の内部に、装置群10の一部を構成する複数の受変電機器が互に対して隔壁されることなく一体に組付けられた受変電機器ユニット50が、収納される。 Because of the configuration described above, the power receiving and transforming equipment unit 50A includes some of the equipment group 10, such as the current transformers 26, 41, 42, circuit breakers 27, 43, busbar connection circuit breaker 37, and station transformer 38. A plurality of constituent power receiving and transforming devices are integrally assembled to the frame 51 without being partitioned from each other. Similarly, in the power receiving and transforming equipment unit 50B, a plurality of power receiving and transforming equipments forming part of the device group 10 are integrally assembled to the frame 51 without being separated from each other. Therefore, in each of the power receiving and transforming equipment 1, a plurality of power receiving and transforming equipments constituting a part of the equipment group 10 are integrated together without being separated from each other inside the container house C1 which is a house for power receiving and transforming equipment. The assembled power receiving and transforming equipment unit 50 is stored.

受変電機器ユニット50では、高さ方向、高さ方向に対して交差する(直交又は略直交する)前後方向、高さ方向及び前後方向の両方に対して交差する(直交又は略直交する)幅方向が、規定される。図6の一例では、受変電設備1のそれぞれにおいて、受変電機器ユニット50は、前後方向が建屋3の奥行方向と一致又は略一致し、かつ、幅方向が建屋3の横方向と一致又は略一致する状態で、コンテナハウスC1に設置される。そして、受変電機器ユニット50は、高さ方向が建屋3の高さ方向と一致又は略一致する状態で、コンテナハウスC1の内部に収納される。また、受変電機器ユニット50のそれぞれでは、変圧器二次側部分22、母線連絡部分15A(又は母線接続部分15B)、所内変圧部分16及び複数の配電線部分17が、幅方向(建屋3の横方向)に並んで配置される。 In the power receiving and transforming equipment unit 50, the height direction, the front-back direction that intersects (perpendicularly or approximately orthogonally) to the height direction, and the width that intersects (orthogonally or approximately orthogonally) to both the height direction and the front-rear direction. A direction is defined. In the example of FIG. 6, in each of the power receiving and transforming equipment 1, the power receiving and transforming equipment unit 50 has a front-back direction that matches or substantially matches the depth direction of the building 3, and a width direction that matches or substantially matches the lateral direction of the building 3. They are installed in the container house C1 in a matching state. The power receiving and transforming equipment unit 50 is housed inside the container house C1 with its height direction matching or substantially matching the height direction of the building 3. Further, in each of the power receiving and transforming equipment units 50, the transformer secondary side portion 22, the busbar connecting portion 15A (or the busbar connecting portion 15B), the in-station transformer portion 16, and the plurality of distribution line portions 17 are arranged in the width direction (of the building 3). (horizontal direction).

また、受変電機器ユニット50のそれぞれでは、1組の母線36A(又は36B)によって、変圧器二次側部分22、母線連絡部分15A(又は母線接続部分15B)、所内変圧部分16及び複数の配電線部分17が、電気的に接続される。そして、受変電機器ユニット50のそれぞれでは、変圧器二次側部分22、母線連絡部分15A(又は母線接続部分15B)、所内変圧部分16及び複数の配電線部分17が互に対して隔壁されていないため、母線36A(又は36B)は、フレーム51の内部を通って延設される。 Furthermore, in each of the power receiving and transforming equipment units 50, one set of busbars 36A (or 36B) connects the transformer secondary side portion 22, the busbar connection portion 15A (or busbar connection portion 15B), the station transformer portion 16, and a plurality of wiring lines. Wire portion 17 is electrically connected. In each of the power receiving and transforming equipment units 50, the transformer secondary side portion 22, the busbar connecting portion 15A (or the busbar connecting portion 15B), the station transformer portion 16, and the plurality of distribution line portions 17 are partitioned from each other. Therefore, the busbar 36A (or 36B) extends through the inside of the frame 51.

例えば、変圧器二次側部分22、母線連絡部分15A、所内変圧部分16及び複数の配電線部分17のそれぞれが鉄の筐体に収納される構成、すなわち、複数のキュービクルが設けられる構成では、複数のキュービクルのそれぞれに対して1組ずつ母線が設けられる。そして、鉄の筐体の外部において、接続部材等を介して、複数の母線の間が接続され、複数のキュービクルの間が電気的に接続される。実施形態では、前述のように受変電機器ユニット50が形成されるため、母線連絡部分15A(又は母線接続部分15B)、所内変圧部分16及び複数の配電線部分17を母線36A(又は36B)によって接続する構成は、複数のキュービクルが設けられる構成とは、異なる。 For example, in a configuration in which the transformer secondary side portion 22, the busbar connection portion 15A, the station transformer portion 16, and the plurality of distribution line portions 17 are each housed in an iron casing, that is, in a configuration in which a plurality of cubicles are provided, One set of busbars is provided for each of the plurality of cubicles. Then, outside the iron casing, the plurality of bus bars are connected via connection members or the like, and the plurality of cubicles are electrically connected. In the embodiment, since the power receiving and transforming equipment unit 50 is formed as described above, the busbar connecting portion 15A (or busbar connecting portion 15B), the station transformer portion 16, and the plurality of distribution line portions 17 are connected by the busbar 36A (or 36B). The configuration for connecting is different from the configuration in which multiple cubicles are provided.

また、母線36A,36Bは、アルミニウム及び銅等の導電材料から形成可能である。ただし、母線36A,36Bを軽量化する観点から、母線36A,36Bは、アルミニウムから形成されることが好ましい。また、受変電機器ユニット50のそれぞれでは、フレーム51によって形成される前方側の面は、不燃性を有する透明なカバーから形成されることが好ましい。この場合、受変電機器ユニット50の前方側の面のカバーは、例えば、ポリカーボネート等から形成される。受変電機器ユニット50において前方側の面が透明に形成されることにより、受変電機器ユニット50において一体に組付けられる受変電機器の状態を、前方側から視認可能となる。また、受変電機器ユニット50では、一体に組付けられる受変電機器等は、前方側の面のカバー等によって、受変電機器ユニット50の外部に露出しない。 Additionally, bus bars 36A and 36B can be formed from conductive materials such as aluminum and copper. However, from the viewpoint of reducing the weight of the bus bars 36A, 36B, the bus bars 36A, 36B are preferably formed from aluminum. Further, in each of the power receiving and transforming equipment units 50, the front side surface formed by the frame 51 is preferably formed from a nonflammable transparent cover. In this case, the cover on the front side of the power receiving and transforming equipment unit 50 is made of, for example, polycarbonate. By forming the front side surface of the power receiving and transforming equipment unit 50 to be transparent, the state of the power receiving and transforming equipment assembled together in the power receiving and transforming equipment unit 50 can be visually confirmed from the front side. Further, in the power receiving and transforming equipment unit 50, the power receiving and transforming equipment etc. that are assembled together are not exposed to the outside of the power receiving and transforming equipment unit 50 due to a cover on the front side surface or the like.

図8は、受変電設備1において建屋3を形成する複数のコンテナハウスの図6とは別の1つであるコンテナハウスC2の内部構成を示す。図3、図4及び図8に示すように、受変電設備1のそれぞれでは、コンテナハウスC2の内部に、配電盤ユニット60が配置及び収納される。したがって、コンテナハウスC2は、配電盤ユニット60が収納される配電盤用ハウスとなる。 FIG. 8 shows the internal configuration of a container house C2, which is one of the plurality of container houses forming the building 3 in the power receiving and transforming equipment 1, which is different from that shown in FIG. As shown in FIGS. 3, 4, and 8, in each of the power receiving and transforming equipment 1, a switchboard unit 60 is arranged and housed inside the container house C2. Therefore, the container house C2 becomes a house for a power distribution board in which the power distribution board unit 60 is housed.

図8等に示すように、受変電設備1のそれぞれにおいてコンテナハウスC2に収納される配電盤ユニット60では、複数の配電盤が、1つのフレーム61に一体に組付けられ、1つのフレーム61の内部に一括して収納される。したがって、配電盤ユニット60では、複数の配電盤のそれぞれが筐体に収納される構成とは異なり、複数の配電盤は、壁等によって互いに対して隔壁されず、互いに対して分離されていない。すなわち、配電盤ユニット60では、複数の配電盤が、互いに対して隔壁されることなく、フレーム61に一体に組付けられる。そして、受変電設備1のそれぞれでは、配電盤用ハウスであるコンテナハウスC2の内部に、装置群10の一部を構成する複数の配電盤が互に対して隔壁されることなく一体に組付けられた配電盤ユニット60が、収納される。 As shown in FIG. 8 etc., in the switchboard unit 60 housed in the container house C2 in each of the power receiving and transforming equipment 1, a plurality of switchboards are assembled into one frame 61, and are housed inside the one frame 61. Stored all at once. Therefore, in the switchboard unit 60, unlike a configuration in which each of the plurality of switchboards is housed in a housing, the plurality of switchboards are not partitioned from each other by a wall or the like and are not separated from each other. That is, in the switchboard unit 60, a plurality of switchboards are integrally assembled to the frame 61 without being partitioned from each other. In each of the power receiving and transforming equipment 1, a plurality of switchboards constituting a part of the device group 10 are integrally assembled inside the container house C2, which is a switchboard house, without being partitioned from each other. A switchboard unit 60 is housed.

なお、図8の一例では、配電盤ユニット60を構成する複数の配電盤として、送電線部分12の機器を保護する保護リレー装置62、送電線部分12を監視及び制御する監視制御装置63、変圧器20を含む変圧部分11について機器の保護に加えて監視及び制御等を行う制御保護装置(変圧器盤)65、複数の配電線部分17について機器の保護に加えて監視及び制御等を行う制御保護装置(配電線盤)66、所内変圧部分16について機器の保護に加えて監視及び制御等を行う所内盤67、及び、情報の伝送制御を行うインタフェース装置68を備える。 In the example of FIG. 8, the plurality of switchboards constituting the switchboard unit 60 include a protection relay device 62 that protects equipment on the power transmission line section 12, a monitoring and control device 63 that monitors and controls the power transmission line section 12, and a transformer 20. A control protection device (transformer panel) 65 that performs monitoring and control in addition to protecting the equipment for the transformer section 11 including the transformer section 11, and a control protection device (transformer panel) 65 that performs monitoring, control, etc. in addition to protecting the equipment for the plurality of distribution line sections 17. (distribution line board) 66, an in-station panel 67 that monitors and controls the in-station transformer section 16 in addition to protecting equipment, and an interface device 68 that controls information transmission.

また、配電盤ユニット60では、 高さ方向、高さ方向に対して交差する(直交又は略直交する)前後方向、高さ方向及び前後方向の両方に対して交差する(直交又は略直交する)幅方向が、規定される。図8の一例では、受変電設備1A,1Bのそれぞれにおいて、配電盤ユニット60は、前後方向が建屋3の奥行方向と一致又は略一致し、かつ、幅方向が建屋3の横方向と一致又は略一致する状態で、コンテナハウスC2に設置される。そして、配電盤ユニット60は、高さ方向が建屋3の高さ方向と一致又は略一致する状態で、コンテナハウスC2の内部に収納される。また、配電盤ユニット60のそれぞれでは、保護リレー装置62、監視制御装置63、制御保護装置65,66、所内盤67及びインタフェース装置68が、幅方向(建屋3の横方向)に並んで配置される。 In addition, in the switchboard unit 60, the height direction, the front-back direction that intersects (orthogonally or approximately orthogonally to) the height direction, and the width that intersects (orthogonally or approximately orthogonally) to both the height direction and the front-rear direction. A direction is defined. In the example of FIG. 8, in each of the power receiving and transforming facilities 1A and 1B, the switchboard unit 60 has a front-rear direction that matches or substantially matches the depth direction of the building 3, and a width direction that matches or substantially matches the lateral direction of the building 3. They are installed in container house C2 in a matching state. The switchboard unit 60 is housed inside the container house C2 with its height direction matching or substantially matching the height direction of the building 3. Further, in each of the switchboard units 60, a protection relay device 62, a supervisory control device 63, control protection devices 65, 66, an in-house panel 67, and an interface device 68 are arranged side by side in the width direction (lateral direction of the building 3). .

また、受変電設備1Aにおいて建屋3を構成するコンテナハウスC3には、電気所において受変電設備1A,1Bで共用される装置(共通盤)が、収納される。受変電設備1Aでは、コンテナハウスC3の内部に収納される装置も、建屋3の内部に収納される前述の装置群10の一部を構成する。コンテナハウスC3に収納される装置としては、複数の受変電設備1についての情報を一括して送受信する通信機器、及び、複数の受変電設備1で共用される電源等が、挙げられる。なお、図3の一例では、コンテナハウスC3の内部に、複数の受変電設備1で共用される装置が一体に組付けられた共通盤70も設置可能とする。 Furthermore, a container house C3 that constitutes the building 3 in the power receiving and transforming equipment 1A houses a device (common panel) that is shared by the power receiving and transforming equipment 1A and 1B at the electric station. In the power receiving and transforming equipment 1A, the devices housed inside the container house C3 also constitute a part of the above-mentioned device group 10 housed inside the building 3. Devices housed in the container house C3 include a communication device that collectively transmits and receives information about the plurality of power receiving and transforming facilities 1, a power source that is shared by the plurality of power receiving and transforming facilities 1, and the like. In the example of FIG. 3, a common panel 70 in which devices shared by a plurality of power receiving and transforming facilities 1 are assembled can also be installed inside the container house C3.

前述のような受変電設備1を建設する際には、製造メーカの工場等の電気所の外部において、複数の受変電機器及び複数の配電盤を含む複数の装置を、複数のコンテナハウスCに分割して設置する。この際、例えば、コンテナハウスC1に、受変電機器ユニット50が設置され、コンテナハウスC2に、配電盤ユニット60が設置される。そして、コンテナハウスCを電気所に搬送する前に、可能な範囲で必要な配線を行い、複数の装置を電気的に接続する。そして、コンテナハウスCを電気所に搬送する前に、製造メーカの工場等で、複数の装置の性能試験を可能な範囲で行う。この際、例えば、コンテナハウスC1に設置された受変電機器とコンテナハウスC2に設置された配電盤との間を電気的に接続する等して、性能試験が行われる。 When constructing the power receiving and transforming equipment 1 as described above, a plurality of devices including a plurality of power receiving and transforming equipment and a plurality of switchboards are divided into a plurality of container houses C outside an electric station such as a manufacturer's factory. and install it. At this time, for example, the power receiving and transforming equipment unit 50 is installed in the container house C1, and the power distribution board unit 60 is installed in the container house C2. Then, before transporting the container house C to an electrical station, necessary wiring is performed to the extent possible and a plurality of devices are electrically connected. Then, before transporting the container house C to an electrical station, performance tests of a plurality of devices are performed to the extent possible at the manufacturer's factory or the like. At this time, a performance test is performed, for example, by electrically connecting the power receiving and transforming equipment installed in the container house C1 and the power distribution board installed in the container house C2.

そして、複数の装置が分割されて設置された複数のコンテナハウスCを、互いに対して分離された状態で、電気所に搬送する。図9は、複数のコンテナハウスCのある1つを搬送している状態を示す。図9に示すように、電気所への複数のコンテナハウスCの搬送では、1台のトレーラ80に1つのコンテナハウスCを搭載して、搬送が行われる。このため、搬送するコンテナハウスCと同一の台数のトレーラ80を用いて、搬送が行われる。また、コンテナハウスCのそれぞれは、1台のトレーラ80に1つのコンテナハウスCが搭載可能な大きさに、形成される。したがって、1台のトレーラ80に1つのコンテナハウスCが搭載可能な大きさに、建屋3が複数のコンテナハウスCに分割される。なお、図9では、コンテナハウスCの内部に設置される装置を省略して示す。 Then, a plurality of container houses C in which a plurality of devices are installed are separated from each other and transported to an electrical station. FIG. 9 shows a state in which one of the plurality of container houses C is being transported. As shown in FIG. 9, when transporting a plurality of container houses C to an electric station, one container house C is loaded onto one trailer 80 and transported. Therefore, transportation is performed using the same number of trailers 80 as the number of container houses C to be transported. Moreover, each of the container houses C is formed to a size that allows one container house C to be mounted on one trailer 80. Therefore, the building 3 is divided into a plurality of container houses C to a size that allows one container house C to be loaded onto one trailer 80. Note that in FIG. 9, devices installed inside the container house C are omitted.

受変電設備1の建設では、電気所の敷地内において、基礎工事を行った後に、架台2を建設する。そして、前述のようにして電気所に搬送された複数のコンテナハウスCを、架台2上に設置する。そして、架台2上において、複数のコンテナハウスCを互いに対して結合する。これにより、建屋3が組立てられるとともに、建屋3の内部に、複数の受変電機器及び複数の配電盤を含む複数の装置が、収納される。そして、発電所等から電力を供給する電力系統に、建設した受変電設備1を連系することにより、受変電設備1の運用が開始される。なお、架台2は、必ずしも設けられる必要はなく、地盤上において、複数のコンテナハウスCを互いに対して結合し、建屋3が組立ててもよい。 In constructing the power receiving and transforming equipment 1, the pedestal 2 is constructed after foundation work is performed within the premises of the electric station. Then, the plurality of container houses C transported to the electrical station as described above are installed on the pedestal 2. Then, on the frame 2, the plurality of container houses C are coupled to each other. As a result, the building 3 is assembled, and a plurality of devices including a plurality of power receiving and transforming devices and a plurality of switchboards are housed inside the building 3. Then, the operation of the power receiving and transforming equipment 1 is started by interconnecting the constructed power receiving and transforming equipment 1 to an electric power system that supplies electric power from a power plant or the like. Note that the frame 2 does not necessarily need to be provided, and the building 3 may be assembled by connecting a plurality of container houses C to each other on the ground.

ここで、電気所の敷地内において土木工事及び建築工事によって建屋を建築した後に、複数の装置を電気所に搬送し、搬送された複数の装置を建築した建屋の内部に収納する場合を、比較例とする。実施形態では、複数のコンテナハウスCを互いに対して結合することにより建屋3が組付けられるため、比較例に比べて、建屋3を建設する手間が低減され、短時間で建屋3が建設される。また、複数のコンテナハウスCに複数の装置が分割して設置された状態で複数のコンテナハウスCが互い対して結合されるため、建屋3の組立てと並行して、建屋3の内部への複数の装置が収納される。すなわち、実施形態は、建屋を建築した後に、建築した建屋の内部に複数の装置を設置する比較例とは、異なる。このため、建屋3の内部に複数の装置を設置する手間等が低減される。 Here, we will compare the case where, after constructing a building through civil engineering and construction work on the premises of an electric power station, multiple devices are transported to the electric power station, and the transported multiple devices are stored inside the constructed building. Take as an example. In the embodiment, the building 3 is assembled by connecting a plurality of container houses C to each other, so the effort to construct the building 3 is reduced compared to the comparative example, and the building 3 can be constructed in a short time. . In addition, since a plurality of container houses C are connected to each other with a plurality of devices installed separately in a plurality of container houses C, in parallel with the assembly of the building 3, multiple devices are installed inside the building 3. equipment is housed. That is, the embodiment is different from the comparative example in which a plurality of devices are installed inside the constructed building after the building is constructed. Therefore, the effort of installing a plurality of devices inside the building 3 is reduced.

また、実施形態では、複数の装置が分割されて設置された複数のコンテナハウスCを、互いに対して分離された状態で、電気所に搬送する。このため、複数の装置のそれぞれを電気所に搬送してから建屋の内部に設置する比較例等と比べて、実施形態では、複数の受変電機器及び複数の配電盤を含む複数の装置を電気所へ搬送する手間及びコスト等が、低減される。また、実施形態では、コンテナハウスC及び複数の装置を電気所に搬送する前に、必要な配線が行われるとともに、複数の装置の性能試験を可能な範囲で行う。このため、電気所において建屋3の内部に複数の装置が設置した後において、配線作業及び性能試験に要する手間及び時間等が、低減される。以上のように実施形態では、比較例等に比べて、受変電設備1の建設における手間が低減され、受変電設備1の建設に要する工期が短縮される。 Further, in the embodiment, a plurality of container houses C in which a plurality of devices are installed separately are transported to an electrical station in a state where they are separated from each other. Therefore, compared to a comparative example in which each of a plurality of devices is transported to an electric station and then installed inside a building, in the embodiment, a plurality of devices including a plurality of power receiving and transforming equipment and a plurality of switchboards are transported to an electric station. The effort and cost of transporting the product to the factory are reduced. Further, in the embodiment, before transporting the container house C and the plurality of devices to an electrical station, necessary wiring is performed and performance tests of the plurality of devices are performed to the extent possible. Therefore, after a plurality of devices are installed inside the building 3 at the electrical station, the effort and time required for wiring work and performance testing are reduced. As described above, in the embodiment, compared to comparative examples and the like, the effort required for constructing the power receiving and transforming equipment 1 is reduced, and the construction period required for constructing the power receiving and transforming equipment 1 is shortened.

また、実施形態では、複数のコンテナハウスCに分割して複数の装置が設置されるため、電気所の仕様等に対応させて、複数のコンテナハウスCのそれぞれに配置される装置を柔軟かつ適宜に変更可能となる。 In addition, in the embodiment, since a plurality of devices are divided into a plurality of container houses C and installed, the devices arranged in each of the plurality of container houses C can be arranged flexibly and appropriately in accordance with the specifications of the electric station. It becomes possible to change to .

また、実施形態では、受変電機器用ハウスであるコンテナハウスC1の内部に、複数の受変電機器が互に対して隔壁されることなく一体に組付けられた受変電機器ユニット50が、収納される。このため、変圧器二次側部分22及び母線連絡部分15A等の複数の部分のそれぞれが鉄の筐体に収納される構成である複数のキュービクルが設けられる構成に比べて、実施形態の構成では、鉄の筐体が設けられないことに起因して、軽量化される。また、鉄の筐体が設けられないことにより、建屋3の内部において受変電機器ユニット50が占めるスペースを、省スペース化可能となる。また、実施形態では、複数のキュービクルの間を連結する貫通ブッシング等の部品が、不要となる。これにより、使用部品が削減されるとともに、コストも削減可能なる。 Further, in the embodiment, a power receiving and transforming equipment unit 50 in which a plurality of power receiving and transforming equipment are assembled together without partition walls from each other is housed inside a container house C1 that is a house for power receiving and transforming equipment. Ru. For this reason, compared to a configuration in which a plurality of cubicles are provided, in which a plurality of parts such as the transformer secondary side part 22 and the bus bar connection part 15A are each housed in an iron case, the structure of the embodiment is , the weight is reduced due to the absence of an iron casing. Furthermore, since no iron casing is provided, the space occupied by the power receiving and transforming equipment unit 50 inside the building 3 can be saved. Further, in the embodiment, parts such as through bushings that connect the plurality of cubicles are not necessary. This reduces the number of parts used and also reduces costs.

また、実施形態の受変電機器ユニット50では、複数の受変電機器は、互いに対して隔壁されていない。このため、受変電機器ユニット50では、1組の母線36A(又は36B)によって、変圧器二次側部分22及び配電線部分17等の複数の部分が、電気的に接続される。このため、複数のキュービクルが設けられる構成に比べて、母線の本数を削減可能であり、母線同士を接続する箇所を削減可能となる。また、受変電機器ユニット50を設けることにより、母線36A(又は36B)を外部に露出させることなく、変圧器二次側部分22及び配電線部分17等の複数の部分が、母線36A(又は36B)によって電気的に接続される。また、実施形態では、複数の受変電機器の間を連結する貫通ブッシング等の部品が、不要となる。これにより、使用部品が削減されるとともに、コストも削減可能なる。 Moreover, in the power receiving and transforming equipment unit 50 of the embodiment, the plurality of power receiving and transforming equipments are not partitioned from each other. Therefore, in the power receiving and transforming equipment unit 50, a plurality of parts such as the transformer secondary part 22 and the distribution line part 17 are electrically connected by one set of bus bars 36A (or 36B). Therefore, compared to a configuration in which a plurality of cubicles are provided, the number of bus bars can be reduced, and the locations where the bus bars are connected can be reduced. Furthermore, by providing the power receiving and transforming equipment unit 50, multiple parts such as the transformer secondary side part 22 and the distribution line part 17 can be connected to the bus bar 36A (or 36B) without exposing the bus bar 36A (or 36B) to the outside. ) are electrically connected. Further, in the embodiment, parts such as a through bushing that connects a plurality of power receiving and transforming devices are not required. This reduces the number of parts used and also reduces costs.

また、実施形態では、配電盤用ハウスであるコンテナハウスC2の内部に、複数の配電盤が互に対して隔壁されることなく一体に組付けられた配電盤ユニット60が、収納される。このため、複数の配電盤のそれぞれが筐体に収納される構成に比べて、実施形態の構成では、筐体が設けられないことに起因して、軽量化される。また、筐体が設けられないことにより、建屋3の内部において配電盤ユニット60が占めるスペースを、省スペース化可能となる。また、機能別にユニット単位で配電盤が配置されるため、配電盤ユニット60の使用を開始した後において、配電盤ユニット60の部分的な更新を容易に行うことが可能になる。 Further, in the embodiment, a power distribution board unit 60 in which a plurality of power distribution boards are assembled together without being separated from each other is housed inside a container house C2 which is a house for a power distribution board. Therefore, compared to a configuration in which each of the plurality of switchboards is housed in a casing, the configuration of the embodiment is lighter in weight because no casing is provided. Furthermore, since no casing is provided, the space occupied by the switchboard unit 60 inside the building 3 can be saved. Furthermore, since the switchboards are arranged in units according to functions, it is possible to easily partially update the switchboard unit 60 after the switchboard unit 60 has started to be used.

また、実施形態のある一例の受変電設備1では、電気所の立地条件に対応させて、架台2上に、建屋3が設置される。このため、積雪、大雨による浸水、及び、津波等に対して、適切に対策が行われる。また、受変電設備1の建設において、想定される浸水の深さ等に対応させて、高さ方向に沿った架台2の寸法を、適宜に調整可能である。 Further, in the power receiving and transforming equipment 1 of one example of the embodiment, a building 3 is installed on the pedestal 2 in accordance with the location conditions of the electric station. For this reason, appropriate measures are taken against snow accumulation, flooding due to heavy rain, tsunamis, etc. Furthermore, in constructing the power receiving and transforming equipment 1, the dimensions of the pedestal 2 along the height direction can be adjusted as appropriate in accordance with the assumed depth of flooding and the like.

また、実施形態の一例では、建屋3の内部に収納される受変電機器ユニット50及び配電盤ユニット60等は、前面保守であること、すなわち、前方側からのみ点検等が可能である。また、前述した一例では、受変電機器ユニット50において前方側の面が透明に形成されることにより、受変電機器ユニット50において一体に組付けられる受変電機器の状態を、前方側から視認可能となる。このため、前面保守の構成において、受変電機器ユニット50の点検等を、適切かつ容易に行うことが可能となる。また、受変電機器ユニット50の前方側の面がカバーで覆われ、受変電機器が外部に露出しないため、主回路に配置される受変電機器への作業者等の接触が、有効に防止される。 Furthermore, in one example of the embodiment, the power receiving and transforming equipment unit 50, the switchboard unit 60, etc. that are housed inside the building 3 are maintained from the front, that is, they can be inspected only from the front side. Furthermore, in the above-mentioned example, the front surface of the power receiving and transforming equipment unit 50 is formed to be transparent, so that the state of the power receiving and transforming equipment assembled integrally in the power receiving and transforming equipment unit 50 can be visually checked from the front side. Become. Therefore, in the front maintenance configuration, it is possible to appropriately and easily perform inspections of the power receiving and transforming equipment unit 50. Furthermore, since the front side of the power receiving and transforming equipment unit 50 is covered with a cover and the power receiving and transforming equipment is not exposed to the outside, it is effectively prevented that workers etc. come into contact with the power receiving and transforming equipment arranged in the main circuit. Ru.

また、電気所では、建屋3の内部の装置と建屋3の外部の装置との間を接続するケーブルは、建屋3から外部に延出される。受変電設備1では、電力ケーブル及び制御ケーブルを含むケーブルは、前面の上部に配置する等して、建屋3の床面に貫通孔及びダクト等を形成することなく、建屋3の外部に延出されることが、好ましい。ある一例では、コンテナハウスCのいずれかの側壁の外表面に、T型のゴムモールドによる終端接続部が形成され、建屋3の内部の装置と建屋3の外部の装置との間を接続するケーブルは、終端接続部を介して、建屋3から外部に延出される。 Furthermore, in the electrical station, cables that connect devices inside the building 3 and devices outside the building 3 are extended from the building 3 to the outside. In the power receiving and transforming equipment 1, cables including power cables and control cables are placed at the top of the front surface, and are extended to the outside of the building 3 without forming through holes or ducts on the floor of the building 3. It is preferable that In one example, a T-shaped rubber molded terminal connection part is formed on the outer surface of one of the side walls of the container house C, and a cable connecting equipment inside the building 3 and equipment outside the building 3 is formed. is extended from the building 3 to the outside via the terminal connection.

浸水対策等で床面に貫通孔等を形成しないため、建屋3の内部の装置と建屋3の外部の装置との間を接続する作業の作業性が、向上する。また、床面からケーブルを建屋3の外部に延出させないため、建屋3の内部の装置と建屋3の外部の装置とを接続するケーブルにおいて、導電部分の露出を防止可能となる。これにより、作業等における安全性が、向上する。また、床面に貫通孔等が形成されないことにより、建屋3の内部への小動物の侵入等が、有効に抑制される。 Since through-holes and the like are not formed in the floor surface to prevent flooding, etc., the workability of connecting equipment inside the building 3 and equipment outside the building 3 is improved. Further, since the cable is not extended from the floor to the outside of the building 3, it is possible to prevent the conductive portion of the cable connecting the equipment inside the building 3 and the equipment outside the building 3 from being exposed. This improves safety during work and the like. Furthermore, since no through holes are formed in the floor surface, entry of small animals into the interior of the building 3 is effectively suppressed.

また、建屋3の内部に配置される装置、すなわち、装置群10を構成する装置へのケーブルの接続は、原則的にはコネクタ接続であることが好ましい。これにより、ケーブルの設置作業及び接続作業における手間等が、さらに低減される。 In principle, it is preferable that cables be connected to devices disposed inside the building 3, that is, devices constituting the device group 10, by connector connections. This further reduces the effort involved in cable installation and connection work.

建屋3の内部の装置と建屋3の外部の装置との間を接続する制御ケーブルは、中継端子台を経由して延設されることが、好ましい。この場合、外部からのサージを対策する構成が、中継端子台に設けられることが、保安上好ましい。 It is preferable that the control cable connecting the device inside the building 3 and the device outside the building 3 be extended via a relay terminal block. In this case, it is preferable from the viewpoint of safety that the relay terminal block is provided with a structure that takes measures against surges from the outside.

なお、本願発明は、上記実施形態に限定されるものではなく、実施段階ではその要旨を逸脱しない範囲で種々に変形することが可能である。また、各実施形態は可能な限り適宜組み合わせて実施してもよく、その場合組み合わせた効果が得られる。更に、上記実施形態には種々の段階の発明が含まれており、開示される複数の構成要件における適当な組み合わせにより種々の発明が抽出され得る。
以下、付記を記載する。
[1]複数のコンテナハウスを備え、前記複数のコンテナハウスが互に対して結合される建屋と、
複数の受変電機器及び複数の配電盤を含む複数の装置から構成され、前記建屋の内部において前記複数の装置が前記複数のコンテナハウスに分割されて収納される装置群と、
を具備する、電気所の受変電設備。
[2]前記装置群は、前記複数の受変電機器が互に対して隔壁されることなく一体に組付けられた受変電機器ユニットを備え、
前記複数のコンテナハウスの1つは、前記受変電機器ユニットが内部に収納される受変電機器用ハウスである、
[1]の受変電設備。
[3]前記装置群は、前記複数の配電盤が互に対して隔壁されることなく一体に組付けられた配電盤ユニットを備え、
前記複数のコンテナハウスの1つは、前記配電盤ユニットが内部に収納される配電盤用ハウスである、
[1]又は[2]の受変電設備。
[4]複数の受変電機器及び複数の配電盤を含む複数の装置を、複数のコンテナハウスに分割して設置することと、
前記複数の装置が分割されて設置された前記複数のコンテナハウスを、互いに対して分離された状態で、電気所に搬送することと、
前記電気所において搬送された前記複数のコンテナハウスを互いに対して結合することにより、建屋を組立てるとともに、前記建屋の内部に前記複数の装置を収納することと、
を具備する、電気所の受変電設備の建設方法。
[5]前記複数のコンテナハウスを前記電気所に搬送する前において、前記複数の装置の性能試験を行うことをさらに具備する、[4]の建設方法。
Note that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the invention at the implementation stage. Moreover, each embodiment may be implemented by appropriately combining them as much as possible, and in that case, the combined effects can be obtained. Further, the embodiments described above include inventions at various stages, and various inventions can be extracted by appropriately combining the plurality of disclosed constituent elements.
Additional notes are listed below.
[1] A building comprising a plurality of container houses, the plurality of container houses being connected to each other;
A device group consisting of a plurality of devices including a plurality of power receiving and transforming equipment and a plurality of switchboards, and the plurality of devices are divided and stored in the plurality of container houses inside the building;
The power receiving and transforming equipment of the electric station is equipped with.
[2] The device group includes a power receiving and transforming equipment unit in which the plurality of power receiving and transforming equipment are assembled together without being separated from each other,
One of the plurality of container houses is a power receiving and transforming equipment house in which the power receiving and transforming equipment unit is housed.
[1] Power receiving and transforming equipment.
[3] The device group includes a switchboard unit in which the plurality of switchboards are integrally assembled without being separated from each other,
One of the plurality of container houses is a switchboard house in which the switchboard unit is housed,
[1] or [2] power receiving and transforming equipment.
[4] Installing multiple devices, including multiple power receiving and transforming equipment and multiple switchboards, in multiple container houses;
transporting the plurality of container houses in which the plurality of devices are installed separately to an electrical station in a state where they are separated from each other;
Assembling a building by connecting the plurality of container houses transported at the electric station to each other, and accommodating the plurality of devices inside the building;
A method for constructing power receiving and transforming equipment at an electric station, which is equipped with.
[5] The construction method according to [4], further comprising performing a performance test on the plurality of devices before transporting the plurality of container houses to the electric station.

1(1A,1B)…受変電設備、2…架台、3…建屋、5…配電盤室、10…装置群、
11(11A,11B)…変圧部分、20…変圧器、21…変圧器一次側部分、22…変圧器二次側部分、15A…母線連絡部分、15B…母線接続部分、16(16A,16B)…所内変圧部分、17(17A,17B)…配電線部分、36A,36B…母線、37…母線連絡遮断器、50…受変電機器ユニット、60…配電盤ユニット、C(C1~C3)…コンテナハウス。
1 (1A, 1B)... Power receiving and transforming equipment, 2... Frame, 3... Building, 5... Switchboard room, 10... Equipment group,
11 (11A, 11B)...Transformer part, 20...Transformer, 21...Transformer primary side part, 22...Transformer secondary side part, 15A...Busbar connection part, 15B...Busbar connection part, 16 (16A, 16B) ...In-station transformer section, 17 (17A, 17B)...Distribution line section, 36A, 36B...Bus bar, 37...Bus bar connection breaker, 50...Power receiving and transforming equipment unit, 60...Switchboard unit, C (C1-C3)...Container house .

Claims (4)

複数のコンテナハウスを備え、前記複数のコンテナハウスが互に対して結合される建屋と、
前記複数のコンテナハウスのそれぞれに1つずつ配置される状態に、前記建屋の内部において前記複数のコンテナハウスに分割されて収納される複数の装置ユニットと、
を具備し、
前記複数の装置ユニットのそれぞれは、フレームと、互に対して隔壁されることなく前記フレームに一体に組付けられる複数の装置と、を備え、
前記複数の装置ユニットの1つは、複数の受変電機器が、前記複数の装置として、互に対して隔壁されることなく、前記フレームに一体に組付けられる受変電器ユニットであり、
前記受変電器ユニットでは、前記複数の受変電機器が互に対して隔離されないことにより、変圧器二次側部分、母線連絡部分又は母線接続部分、所内変圧部分、及び、複数の配電線部分が、互に対して隔壁されない状態で形成される、
電気所の受変電設備。
A building comprising a plurality of container houses, the plurality of container houses being connected to each other;
a plurality of equipment units that are divided and housed in the plurality of container houses inside the building, one in each of the plurality of container houses;
Equipped with
Each of the plurality of device units includes a frame and a plurality of devices that are integrally assembled to the frame without being separated from each other,
One of the plurality of device units is a power receiving and transforming unit in which a plurality of power receiving and transforming devices are integrally assembled to the frame without being separated from each other as the plurality of devices,
In the power receiving transformer unit, the plurality of power receiving and transforming devices are not isolated from each other, so that the transformer secondary side part, the bus bar connecting part or the bus bar connecting part, the station transformer part, and the plurality of distribution line parts are separated from each other. , formed without partition walls from each other,
Power receiving and transforming equipment at an electric station.
前記複数の装置ユニットの前記受変電器ユニットとは別の1つは、複数の配電盤が、前記複数の装置として、互に対して隔壁されることなく、前記フレームに一体に組付けられる配電盤ユニットである
請求項1の受変電設備。
One of the plurality of device units other than the power receiving transformer unit is a switchboard unit in which a plurality of switchboards are integrally assembled to the frame as the plurality of devices without being partitioned from each other. is ,
The power receiving and transforming equipment according to claim 1 .
複数の装置ユニットのそれぞれにおいて、複数の装置が互に対して隔壁されることなくフレームに一体に組付けられる状態に、前記複数の装置ユニットの形成することと、
複数のコンテナハウスのそれぞれに1つずつ配置される状態に、形成した前記複数の装置ユニットを、前記複数のコンテナハウスに分割して設置することと、
前記複数の装置ユニットが分割されて設置された前記複数のコンテナハウスを、互に対して分離された状態で、電気所に搬送することと、
前記電気所において搬送された前記複数のコンテナハウスを互に対して結合することにより、建屋を組立てるとともに、前記建屋の内部に前記複数の装置ユニットを収納することと、
を具備し、
前記複数の装置ユニットの形成では、前記複数の装置として複数の受変電機器を、互に対して隔壁されることなく、前記フレームに一体に組付けることにより、前記複数の装置ユニットの1つとして受変電器ユニットを形成し、
前記受変電器ユニットの形成では、前記複数の受変電機器を互に対して隔離しないことにより、前記受変電器ユニットにおいて、変圧器二次側部分、母線連絡部分又は母線接続部分、所内変圧部分、及び、複数の配電線部分が、互に対して隔壁されない状態を形成する、
電気所の受変電設備の建設方法。
Forming the plurality of device units in a state in which the plurality of devices are integrally assembled to a frame without being separated from each other in each of the plurality of device units;
dividing and installing the formed plurality of device units in the plurality of container houses so that one is placed in each of the plurality of container houses;
transporting the plurality of container houses in which the plurality of device units are divided and installed to an electrical station in a state where they are separated from each other;
Assembling a building by connecting the plurality of container houses transported at the electric station to each other, and accommodating the plurality of equipment units inside the building;
Equipped with
In forming the plurality of device units, a plurality of power receiving and transforming devices as the plurality of devices are integrally assembled to the frame without being separated from each other, thereby forming one of the plurality of device units. form a receiving transformer unit,
In forming the power receiving transformer unit, by not isolating the plurality of power receiving and transforming devices from each other, in the power receiving transformer unit, the transformer secondary side part, the bus bar connecting part or the bus bar connecting part, the station transformer part , and forming a state in which the plurality of distribution line portions are not partitioned from each other,
Construction method for power receiving and substation equipment at an electric station.
前記複数のコンテナハウスを前記電気所に搬送する前において、前記複数の装置ユニットの性能試験を行うことをさらに具備する、請求項3の建設方法。 4. The construction method according to claim 3 , further comprising performing a performance test on the plurality of equipment units before transporting the plurality of container houses to the electric station.
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CN206432607U (en) 2017-01-20 2017-08-22 厦门智能达电控有限公司 A kind of Large Copacity high voltage minimizes box type transformation device
CN209881210U (en) 2019-04-18 2019-12-31 北京潞电电气设备有限公司 Prepackage type electricity distribution room
CN113708281A (en) 2021-08-17 2021-11-26 乐山一拉得电网自动化有限公司 Environment-friendly nonmetal modularization prefabricated cabin formula intelligent substation

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