TWM590781U - Energy storage system equipment - Google Patents

Abstract

一種儲能系統設備，包括儲能櫃體與複數個電池堆疊。儲能櫃體內部包括控制室、電池室及內隔間牆，內隔間牆分隔於控制室與電池室之間，其中，電池室包括有外側壁、內側板、容置箱及走道空間，外側壁與內側板之間夾層形成散熱隔間，外側壁開設散熱孔，內側板開設通風口，散熱孔與通風口分別連通於散熱隔間，容置箱設置於內側板與走道空間之間，容置箱包括背板，背板開設排熱口，排熱口對應連通內側板之通風口。多個電池堆疊容設於容置箱中。An energy storage system device includes an energy storage cabinet and a plurality of battery stacks. The interior of the energy storage cabinet includes a control room, a battery room and an inner partition wall, the inner partition wall is partitioned between the control room and the battery room, wherein the battery room includes an outer side wall, an inner side panel, a storage box and a walkway space, A heat dissipation compartment is formed between the outer side wall and the inner side plate, a heat dissipation hole is provided on the outer side wall, and a vent is provided on the inner side plate. The heat dissipation hole and the vent are respectively connected to the heat dissipation compartment. The accommodating box includes a back plate, and the back plate is provided with a heat exhaust port, and the heat exhaust port corresponds to the ventilation port connected to the inner panel. A plurality of battery stacks are accommodated in the accommodating box.

Description

儲能系統設備Energy storage system equipment

本創作係關於一種儲存設備，特別是指一種儲能系統設備。This creation is about a kind of storage equipment, especially a kind of energy storage system equipment.

為了有效提升電網的使用效率、使用彈性及應變能力或者整合再生能源發電（例如太陽能發電、水力發電或風力發電），儲能技術已成為目前發展智慧電網與再生能源應用不可或缺的發展重點，例如儲能設備可調節用電高峰及發電高峰時段不匹配情形，使得再生能源發電的利用率有效提高，並可避免棄電情形或降低傳統高峰負載。In order to effectively improve the utilization efficiency of the power grid, use elasticity and resilience, or integrate renewable energy power generation (such as solar power, hydropower, or wind power), energy storage technology has become an indispensable development focus for the development of smart grids and renewable energy applications. For example, energy storage equipment can adjust the peak electricity usage and the peak power generation mismatch situation, so that the utilization rate of renewable energy power generation can be effectively improved, and can avoid the situation of abandonment of electricity or reduce the traditional peak load.

一般儲能設備主要是透過電池組進行電能的儲存，然而，電池組在充、放電過程中會產生大量的熱能，導致電池組存放空間之溫度持續提高，造成電池組或其他設備故障或意外事故（例如火災）的發生。General energy storage equipment mainly stores electrical energy through the battery pack. However, a large amount of heat energy is generated during the charging and discharging of the battery pack, which causes the temperature of the storage space of the battery pack to continue to increase, causing failure or accidents of the battery pack or other equipment (Eg fire).

鑒於上述，於一實施例中，提供一種儲能系統設備，包括儲能櫃體與複數個電池堆疊。儲能櫃體內部包括控制室、電池室及內隔間牆，內隔間牆分隔於控制室與電池室之間，其中，電池室包括有外側壁、內側板、至少一容置箱及走道空間，外側壁與內側板之間夾層形成散熱隔間，外側壁開設至少一散熱孔，內側板開設至少一通風口，至少一散熱孔與至少一通風口分別連通於散熱隔間，容置箱設置於內側板與走道空間之間，容置箱包括背板，背板開設至少一排熱口，排熱口對應連通內側板之通風口。多個電池堆疊容設於容置箱中。In view of the above, in an embodiment, an energy storage system device is provided, including an energy storage cabinet and a plurality of battery stacks. The interior of the energy storage cabinet includes a control room, a battery room and an inner partition wall, the inner partition wall is partitioned between the control room and the battery room, wherein the battery room includes an outer side wall, an inner panel, at least one storage box and a walkway The space between the outer side wall and the inner side plate forms a heat dissipation compartment. The outer side wall defines at least one heat dissipation hole. The inner side panel defines at least one vent. The at least one heat dissipation hole and the at least one vent are respectively connected to the heat dissipation compartment. Located between the inner panel and the space of the walkway, the accommodating box includes a back panel, and the back panel defines at least one row of heat outlets, and the heat exhaust ports correspond to the vents of the inner panel. A plurality of battery stacks are accommodated in the accommodating box.

綜上，根據本創作實施例之儲能系統設備，透過在電池室中形成一散熱隔間，且電池堆疊之容置箱的背板之排熱口連通於散熱隔間，使電池堆疊運作所產生的熱能能夠集中導入散熱隔間並從外側壁的散熱孔排出儲能櫃體外部，達到避免電池室過熱而影響電池堆疊的運作、降低空調系統的負載量或造成意外事故（例如火災）的發生。In summary, according to the energy storage system device of the present embodiment, a heat dissipation compartment is formed in the battery compartment, and the heat exhaust port of the back plate of the storage box of the battery stack is connected to the heat dissipation compartment to enable the battery stack to operate. The generated heat energy can be concentrated into the heat dissipation compartment and discharged from the outside of the energy storage cabinet through the heat dissipation holes on the outer side wall, so as to avoid overheating of the battery room and affect the operation of the battery stack, reduce the load of the air conditioning system, or cause accidents (such as fire) occur.

以下提出各種實施例進行詳細說明，然而，實施例僅用以作為範例說明，並不會限縮本創作欲保護之範圍。此外，實施例中的圖式省略部份元件，以清楚顯示本創作的技術特點。在所有圖式中相同的標號將用於表示相同或相似的元件。The following provides various embodiments for detailed description. However, the embodiments are only used as examples for illustration, and do not limit the scope of protection of the original creation. In addition, the drawings in the embodiments omit some elements to clearly show the technical characteristics of the creation. The same reference numbers will be used for the same or similar elements in all drawings.

圖1為本創作儲能系統設備一實施例之立體圖，圖2為本創作儲能系統設備一實施例之內部示意圖。如圖1與圖2所示，本實施例之儲能系統設備1包括有儲能櫃體10與複數個電池堆疊20。儲能系統設備1之多個電池堆疊20可用於儲存電網或再生能源設備（例如太陽能發電設備、水力發電設備或風力發電設備）所產生的電能，以大幅提升電網與再生能源設備的發電利用率。FIG. 1 is a perspective view of an embodiment of a creative energy storage system device, and FIG. 2 is an internal schematic view of an embodiment of an creative energy storage system device. As shown in FIGS. 1 and 2, the energy storage system device 1 of this embodiment includes an energy storage cabinet 10 and a plurality of battery stacks 20. The plurality of battery stacks 20 of the energy storage system device 1 can be used to store electrical energy generated by the power grid or renewable energy equipment (such as solar power equipment, hydropower equipment, or wind power equipment) to greatly increase the power generation utilization rate of the power grid and renewable energy equipment .

如圖1與圖2所示，本實施例之儲能系統設備1為大型儲能設備，舉例來說，儲能系統設備1之儲能櫃體10為大型貨櫃（如長度為20呎、40呎或45呎等貨櫃）或其他材質、尺寸之箱體，並可置放於室內、外空間，但此並不侷限，儲能系統設備1亦可為大型儲能站。儲能櫃體10的內部具有多間獨立空間，在本實施例中，儲能櫃體10內部包括控制室11、電池室15及內隔間牆101，於圖1中將儲能櫃體10的天花板13省略繪示以清楚表現儲能櫃體10的內部結構。其中，內隔間牆101為儲能櫃體10內部的隔牆，且內隔間牆101分隔於控制室11與電池室15之間，也就是說，內隔間牆101將儲能櫃體10內部區隔成控制室11與電池室15。在一些實施例中，內隔間牆101可為一防火內隔間牆，例如內隔間牆101可為不燃材料（例如混凝土、磚、空心磚、瓦、石料、鋼鐵、鋁、玻璃、玻璃纖維、礦棉、陶瓷品、砂漿或石灰等不因火熱引起燃燒、熔化、破裂變形及產生有害氣體之材料）所製成的牆體，達到使控制室11或電池室15發生火災時，有效避免擴大災害影響範圍。As shown in FIGS. 1 and 2, the energy storage system device 1 of this embodiment is a large energy storage device. For example, the energy storage cabinet 10 of the energy storage system device 1 is a large container (such as 20 feet in length and 40 in length). Feet or 45 feet, etc.) or other materials and sizes, and can be placed in indoor and outdoor spaces, but this is not limited, and the energy storage system equipment 1 can also be a large energy storage station. The energy storage cabinet 10 has multiple independent spaces inside. In this embodiment, the energy storage cabinet 10 includes a control room 11, a battery room 15 and an inner partition wall 101. The energy storage cabinet 10 is shown in FIG. 1 The ceiling 13 is omitted to clearly show the internal structure of the energy storage cabinet 10. Wherein, the inner partition wall 101 is a partition wall inside the energy storage cabinet 10, and the inner partition wall 101 is partitioned between the control room 11 and the battery room 15, that is to say, the inner partition wall 101 separates the energy storage cabinet body 10 The interior is divided into a control room 11 and a battery room 15. In some embodiments, the inner compartment wall 101 may be a fireproof inner compartment wall, for example, the inner compartment wall 101 may be a non-combustible material (such as concrete, brick, hollow brick, tile, stone, steel, aluminum, glass, fiberglass , Mineral wool, ceramics, mortar or lime and other materials that do not burn, melt, rupture and deform and produce harmful gases due to fire, can effectively avoid the fire in the control room 11 or battery room 15 Expand the scope of disaster impact.

如圖2所示，在本實施例中，電池室15包括有多個外側壁16、多個內側板17、多個容置箱18及走道空間19，多個容置箱18設置於電池室15內部。請配合圖3所示，為本創作容置箱一實施例之立體圖，在本實施例中，各容置箱18具體上可為箱體，且各容置箱18內部收容多個電池堆疊20，舉例來說，各容置箱18具有一前門183，在電池堆疊20安裝過程中，工作人員可將前門183開啟並將多個電池堆疊20置入各容置箱18內部，再將前門183關閉以完成安裝。As shown in FIG. 2, in this embodiment, the battery compartment 15 includes a plurality of outer side walls 16, a plurality of inner plates 17, a plurality of storage boxes 18 and aisle spaces 19, and the plurality of storage boxes 18 are provided in the battery room 15 inside. Please refer to FIG. 3 for a perspective view of an embodiment of the creative storage box. In this embodiment, each storage box 18 may specifically be a box, and each storage box 18 contains a plurality of battery stacks 20 inside. For example, each storage box 18 has a front door 183. During the installation of the battery stack 20, a worker can open the front door 183 and place a plurality of battery stacks 20 into each storage box 18, and then place the front door 183 Close to complete the installation.

在一些實施例中，上述各電池堆疊20可為電化學電池（例如含鉛酸、鋰、鈉、鎳或液流電池等），以利用儲存於電池芯、電極或電解質的電化學位能，進行快速充電與放電。控制室11內設有配電裝置12，例如配電裝置12可包括有饋電線、隔離開關、斷路器及電力變壓器等等，配電裝置12電連接於各容置箱18中的各電池堆疊20，用以切斷、接通、改變或者調整電壓。In some embodiments, each of the above battery stacks 20 may be an electrochemical cell (such as lead-acid, lithium, sodium, nickel, or flow battery, etc.) to use the electrochemical potential energy stored in the battery cell, electrode, or electrolyte to perform Quick charge and discharge. The control room 11 is provided with a power distribution device 12, for example, the power distribution device 12 may include feeders, disconnectors, circuit breakers and power transformers, etc. The power distribution device 12 is electrically connected to each battery stack 20 in each housing box 18 for To cut off, turn on, change or adjust the voltage.

再如圖2所示，在本實施例中，電池室15內更具有一防火牆151，防火牆151將電池室15分隔成二部分，也就是說，電池室15更區分成二個獨立隔間152，每個獨立隔間152內皆存放多個容置箱18以進行儲能作業，其中防火牆151同樣可為不燃材料（例如混凝土、磚、空心磚、瓦、石料、鋼鐵、鋁、玻璃、玻璃纖維、礦棉、陶瓷品、砂漿或石灰等不因火熱引起燃燒、熔化、破裂變形及產生有害氣體之材料）所製成的牆體，使電池室15的其中一個獨立隔間152發生火災時，能有效避免災害擴大至另一個獨立隔間152或控制室11，使另一個獨立隔間152中的電池堆疊20仍可繼續進行儲能作業。As shown in FIG. 2 again, in this embodiment, there is a firewall 151 in the battery compartment 15 which divides the battery compartment 15 into two parts, that is, the battery compartment 15 is further divided into two independent compartments 152 In each independent compartment 152, a plurality of storage boxes 18 are stored for energy storage operations, wherein the firewall 151 can also be non-combustible materials (such as concrete, brick, hollow brick, tile, stone, steel, aluminum, glass, fiberglass) , Mineral wool, ceramics, mortar or lime and other materials that do not burn, melt, rupture and deform and produce harmful gases due to fire, so that one of the independent compartments 152 of the battery compartment 15 has a fire, It can effectively prevent the disaster from expanding to another independent compartment 152 or the control room 11 so that the battery stack 20 in the other independent compartment 152 can still continue energy storage operations.

如圖1與圖2所示，電池室15的每個獨立隔間152內設有二外側壁16、二內側板17與多個容置箱18，二外側壁16為分別位於獨立隔間152相對二側的外牆，二內側板17分別鄰近於二外側壁16，且各內側板17與鄰近的外側壁16之間夾層形成散熱隔間C，走道空間19則介於二內側板17之間並與散熱隔間C彼此隔離不連通。請對照圖1至圖4所示，在本實施例中，各外側壁16開設有散熱孔161以連通於儲能櫃體10的外部空間，各內側板17開設有通風口171，且散熱孔161與通風口171分別連通於各散熱隔間C。多個容置箱18分別設置於內側板17與走道空間19之間，各容置箱18包括背板181，背板181位於前門183的相對側，其中前門183朝向走道空間19，使工作人員方便於走道空間19中進行電池堆疊20的維修或更換。各容置箱18的背板181開設排熱口182，且排熱口182對應連通於各內側板17的通風口171，藉此，各容置箱18中之電池堆疊20運作所產生的熱能從排熱口182集中導入至各散熱隔間C中，並從外側壁16的散熱孔161排出儲能櫃體10外部，此配合不同實施例詳述如下。As shown in FIGS. 1 and 2, each independent compartment 152 of the battery compartment 15 is provided with two outer sidewalls 16, two inner panels 17 and a plurality of storage boxes 18. The two outer sidewalls 16 are respectively located in the independent compartments 152 With respect to the outer walls on the two sides, the two inner panels 17 are respectively adjacent to the two outer sidewalls 16, and a heat dissipation compartment C is formed between each inner panel 17 and the adjacent outer sidewall 16, and the walkway space 19 is between the two inner panels 17 And the heat dissipation compartment C are isolated from each other. Please refer to FIG. 1 to FIG. 4, in this embodiment, each outer side wall 16 is provided with heat dissipation holes 161 to communicate with the external space of the energy storage cabinet 10, each inner plate 17 is provided with a vent 171, and the heat dissipation holes 161 and the vent 171 communicate with each heat-dissipating compartment C, respectively. A plurality of storage boxes 18 are respectively disposed between the inner panel 17 and the aisle space 19, and each storage box 18 includes a back panel 181, which is located on the opposite side of the front door 183, wherein the front door 183 faces the aisle space 19, so that the staff It is convenient to repair or replace the battery stack 20 in the walkway space 19. The back plate 181 of each accommodating box 18 defines a heat exhaust port 182, and the heat exhaust port 182 corresponds to the vent 171 of each inner panel 17, whereby the thermal energy generated by the operation of the battery stack 20 in each accommodating box 18 The heat exhaust port 182 is collectively introduced into each heat dissipation compartment C, and is discharged from the outside of the energy storage cabinet 10 through the heat dissipation holes 161 of the outer side wall 16, which will be described in detail as follows with different embodiments.

如圖1至圖4所示，在本實施例中，電池室15之每個獨立隔間152中的多個容置箱18分別承靠於二內側板17，在此每個內側板17承靠有四個容置箱18，但此並不侷限。各容置箱18的背板181開設有多個排熱口182，其中多個排熱口182可線性排列（如圖4所示）、非線性排列或矩陣式排列，各內側板17對應多個排熱口182有多個通風口171以分別對應於多個排熱口182，使各容置箱18之電池堆疊20運作所產生的熱能可從排熱口182直接導入至各散熱隔間C中而不會傳遞至走道空間19，此外，導入至各散熱隔間C的熱能可從外側壁16的散熱孔161排出儲能櫃體10外部以與外界進行熱交換，達到自然散熱的效果，避免電池室15過熱而影響電池堆疊20的運作以及意外事故（例如火災）的發生，同時防止走道空間19的室內溫度受到電池堆疊20運作所產生的熱能影響而提高。As shown in FIGS. 1 to 4, in this embodiment, a plurality of accommodating boxes 18 in each independent compartment 152 of the battery compartment 15 respectively bear against two inner plates 17, where each inner plate 17 supports There are four storage boxes 18, but this is not limited. The back plate 181 of each accommodating box 18 is provided with a plurality of heat exhaust ports 182, wherein the plurality of heat exhaust ports 182 may be arranged linearly (as shown in FIG. 4), non-linearly or in a matrix arrangement, and each inner panel 17 corresponds to more Each heat exhaust port 182 has a plurality of vents 171 corresponding to the plurality of heat exhaust ports 182, respectively, so that the thermal energy generated by the operation of the battery stack 20 of each housing box 18 can be directly introduced from the heat exhaust port 182 to each cooling compartment C will not be transferred to the aisle space 19, in addition, the heat energy introduced into each heat dissipation compartment C can be discharged from the outside of the energy storage cabinet 10 through the heat dissipation holes 161 of the outer side wall 16 to exchange heat with the outside world to achieve the effect of natural heat dissipation In order to prevent the overheating of the battery chamber 15 from affecting the operation of the battery stack 20 and the occurrence of accidents (such as fire), the indoor temperature of the aisle space 19 is prevented from being increased due to the heat energy generated by the operation of the battery stack 20.

然而上述實施例僅為舉例，如圖5所示，在另一實施例中，電池室15中之內側板17的通風口172亦可為大面積的孔洞以同時涵蓋各容置箱18之背板181上的多個排熱口182，例如在此通風口172為長條狀孔洞，但亦可為其他形狀（例如方形或長方形等）之孔洞。本實施例相較於圖4之實施例來說，可達到避免內側板17因製造上的公差而造成通風口172無法正確對應於各排熱口182，從而降低製造上的困難度，除此之外，內側板17更容易適用於具有不同排熱口182排列方式之容置箱18。However, the above embodiment is only an example. As shown in FIG. 5, in another embodiment, the vent 172 of the inner panel 17 in the battery compartment 15 may also be a large-area hole to cover the back of each storage box 18 at the same time. The plurality of heat exhaust ports 182 on the plate 181, for example, the vents 172 here are elongated holes, but can also be holes of other shapes (for example, square or rectangular). Compared with the embodiment shown in FIG. 4, this embodiment can avoid that the inner plate 17 can not correctly correspond to the heat exhaust ports 182 due to manufacturing tolerances, thereby reducing the difficulty of manufacturing. In addition, the inner panel 17 is easier to apply to the containing box 18 with different arrangements of the heat exhaust ports 182.

如圖1、圖2、圖4及圖6所示，其中為圖6為圖2之6-6剖視圖。在本實施例中，電池室15之各外側壁16更開設對流孔162，對流孔162的高度位置低於散熱孔161之高度位置，當各容置箱18中之電池堆疊20運作所產生的熱能從排熱口182經由通風口171集中導入至各散熱隔間C中後，各散熱隔間C的熱空氣能夠上升並由散熱孔161排出，而儲能櫃體10外部冷空氣能夠由對流孔162進入各散熱隔間C中，達到產生自然對流（如圖6之箭號F所示）而加速降溫之效果。As shown in Fig. 1, Fig. 2, Fig. 4 and Fig. 6, wherein Fig. 6 is a cross-sectional view 6-6 of Fig. 2. In this embodiment, each outer side wall 16 of the battery chamber 15 is further provided with a convection hole 162. The height position of the convection hole 162 is lower than the height position of the heat dissipation hole 161. When the battery stack 20 in each housing box 18 operates After the heat energy is collectively introduced into the heat dissipation compartments C from the heat exhaust ports 182 through the vents 171, the hot air in the heat dissipation compartments C can rise and be discharged through the heat dissipation holes 161, and the cold air outside the energy storage cabinet 10 can be convected The hole 162 enters each heat dissipation compartment C to achieve the effect of generating natural convection (as shown by arrow F in FIG. 6) and accelerating the cooling.

如圖7所示，在一些實施例中，電池室15之外側壁16上的各散熱孔161處更可設有排風扇30，當排風扇30運作時可加速將各散熱隔間C中的熱空氣排出而同時加速外部冷空氣從對流孔162進入各散熱隔間C，達到加速散熱與對流之效果。此外，電池室15之外側壁16上的各對流孔162處亦可設有抽風扇31，以進一步加速散熱與對流效果。As shown in FIG. 7, in some embodiments, an exhaust fan 30 may be further provided at each heat dissipation hole 161 on the outer side wall 16 of the battery chamber 15. When the exhaust fan 30 operates, it may accelerate the hot air in each cooling compartment C Exhaust and accelerate the external cold air from the convection holes 162 into the heat-dissipating compartments C to achieve the effect of accelerating heat dissipation and convection. In addition, an exhaust fan 31 may be provided at each convection hole 162 on the outer side wall 16 of the battery chamber 15 to further accelerate the heat dissipation and convection effects.

在一些實施例中，上述各內側板17可為不燃材料（例如混凝土、磚、空心磚、瓦、石料、鋼鐵、鋁、玻璃、玻璃纖維、礦棉、陶瓷品、砂漿或石灰等不因火熱引起燃燒、熔化、破裂變形及產生有害氣體之材料）所製成的防火板，使電池室15發生火災時，能有效避免災害擴大至散熱隔間C或儲能櫃體10外部。但此並不侷限，各內側板17亦可為其他材質所製成。In some embodiments, the above inner plates 17 may be non-combustible materials (such as concrete, bricks, hollow bricks, tiles, stones, steel, aluminum, glass, fiberglass, mineral wool, ceramics, mortar, or lime, etc., which are not caused by fire Fireproof board made of materials that burn, melt, rupture, deform, and produce harmful gases) can effectively prevent the expansion of the disaster to the outside of the cooling compartment C or the energy storage cabinet 10 in the event of a fire in the battery compartment 15. However, this is not limited, and each inner panel 17 may be made of other materials.

再如圖6與圖7所示，在一些實施例中，電池室15之走道空間19更可連通於空調裝置40之出風口41，以將冷空氣導入走道空間19中而降低室內溫度，以進一步避免電池室15過熱之情形。此外，由於走道空間19與各散熱隔間C彼此隔離，因此，各容置箱18之電池堆疊20運作所產生的熱能不會傳遞至走道空間19中，因此，可大幅降低空調裝置40的負載量而進一步達到節能省電的效果。As shown in FIGS. 6 and 7 again, in some embodiments, the aisle space 19 of the battery room 15 can be further connected to the air outlet 41 of the air-conditioning device 40 to introduce cool air into the aisle space 19 to reduce the indoor temperature, To further prevent the battery compartment 15 from overheating. In addition, since the aisle space 19 and the heat-dissipating compartments C are isolated from each other, the heat energy generated by the operation of the battery stack 20 of each accommodating box 18 is not transferred to the aisle space 19, so the load of the air-conditioning device 40 can be greatly reduced To further achieve the effect of energy saving and power saving.

再如圖1所示，在一些實施例中，電池室15之各外側壁16可設有維修門163，且上述散熱孔161設於維修門163上，藉此，工作人員可從儲能櫃體10的外部開啟維修門163，以對電池室15內部的相關設備進行維修或更換。As shown in FIG. 1 again, in some embodiments, each outer side wall 16 of the battery compartment 15 may be provided with a maintenance door 163, and the above-mentioned heat dissipation hole 161 is provided on the maintenance door 163, by which staff can access the energy storage cabinet The maintenance door 163 is opened outside the body 10 to repair or replace related equipment inside the battery compartment 15.

綜上，根據本創作實施例之儲能系統設備1，透過在電池室15中形成散熱隔間C，且電池堆疊20之容置箱18的背板181之排熱口182連通於散熱隔間C，使電池堆疊20運作所產生的熱能能夠集中導入散熱隔間C並從外側壁16的散熱孔161排出儲能櫃體10外部，達到避免電池室15過熱而影響電池堆疊20的運作、降低空調系統的負載量或造成意外事故（例如火災）的發生。To sum up, according to the energy storage system device 1 of this creative embodiment, by forming the heat dissipation compartment C in the battery compartment 15 and the heat exhaust port 182 of the back plate 181 of the accommodating box 18 of the battery stack 20 communicates with the heat dissipation compartment C, so that the thermal energy generated by the operation of the battery stack 20 can be concentrated into the heat dissipation compartment C and discharged from the exterior of the energy storage cabinet 10 through the heat dissipation holes 161 of the outer side wall 16, so as to avoid the overheating of the battery compartment 15 and affect the operation and reduction of the battery stack 20 The load of the air conditioning system may cause an accident (such as a fire).

雖然本創作的技術內容已經以較佳實施例揭露如上，然其並非用以限定本創作，任何熟習此技藝者，在不脫離本創作之精神所作些許之更動與潤飾，皆應涵蓋於本創作的範疇內，因此本創作之保護範圍當視後附之申請專利範圍所界定者為準。Although the technical content of this creation has been disclosed as above with the preferred embodiment, it is not intended to limit this creation. Anyone who is familiar with this skill should make some changes and retouching without departing from the spirit of this creation. The scope of protection of this creation shall be deemed as defined by the scope of the attached patent application.

1‧‧‧儲能系統設備 10‧‧‧儲能櫃體 101‧‧‧內隔間牆 11‧‧‧控制室 12‧‧‧配電裝置 13‧‧‧天花板 15‧‧‧電池室 151‧‧‧防火牆 152‧‧‧獨立隔間 16‧‧‧外側壁 161‧‧‧散熱孔 162‧‧‧對流孔 163‧‧‧維修門 17‧‧‧內側板 171、172‧‧‧通風口 18‧‧‧容置箱 181‧‧‧背板 182‧‧‧排熱口 183‧‧‧前門 19‧‧‧走道空間 C‧‧‧散熱隔間 20‧‧‧電池堆疊 30‧‧‧排風扇 31‧‧‧抽風扇 40‧‧‧空調裝置 41‧‧‧出風口 F‧‧‧箭號 1‧‧‧Energy storage system equipment 10‧‧‧Energy storage cabinet 101‧‧‧Inner compartment wall 11‧‧‧Control room 12‧‧‧Distribution device 13‧‧‧ Ceiling 15‧‧‧ battery room 151‧‧‧Firewall 152‧‧‧Independent compartment 16‧‧‧Outside wall 161‧‧‧Ventilation holes 162‧‧‧Convection holes 163‧‧‧Maintenance door 17‧‧‧Inboard 171, 172‧‧‧ vent 18‧‧‧Container box 181‧‧‧Backboard 182‧‧‧heat exhaust port 183‧‧‧Front door 19‧‧‧walkway space C‧‧‧Cooling compartment 20‧‧‧Battery stack 30‧‧‧ exhaust fan 31‧‧‧Exhaust fan 40‧‧‧Air conditioner 41‧‧‧Outlet F‧‧‧Arrow

[圖1] 為本創作儲能系統設備一實施例之立體圖。 [圖2] 為本創作儲能系統設備一實施例之內部示意圖。 [圖3] 為本創作容置箱一實施例之立體圖。 [圖4] 為本創作儲能系統設備一實施例之局部分解立體圖。 [圖5] 為本創作儲能系統設備另一實施例之局部分解立體圖。 [圖6] 為圖2之6-6剖視圖。 [圖7] 為本創作儲能系統設備另一實施例之剖視圖。 [FIG. 1] This is a perspective view of an embodiment of an energy storage system device. [FIG. 2] This is an internal schematic diagram of an embodiment of an energy storage system device. [Figure 3] This is a perspective view of an embodiment of a creative container. [FIG. 4] This is a partially exploded perspective view of an embodiment of an energy storage system device for creation. [FIG. 5] This is a partially exploded perspective view of another embodiment of the device for creating an energy storage system. [Fig. 6] is a sectional view taken along line 6-6 of Fig. 2. [FIG. 7] This is a cross-sectional view of another embodiment of the device for creating an energy storage system.

1‧‧‧儲能系統設備 1‧‧‧Energy storage system equipment

10‧‧‧儲能櫃體 10‧‧‧Energy storage cabinet

101‧‧‧內隔間牆 101‧‧‧Inner compartment wall

11‧‧‧控制室 11‧‧‧Control room

12‧‧‧配電裝置 12‧‧‧Distribution device

15‧‧‧電池室 15‧‧‧ battery room

151‧‧‧防火牆 151‧‧‧Firewall

152‧‧‧獨立隔間 152‧‧‧Independent compartment

16‧‧‧外側壁 16‧‧‧Outside wall

17‧‧‧內側板 17‧‧‧Inboard

18‧‧‧容置箱 18‧‧‧Container box

19‧‧‧走道空間 19‧‧‧walkway space

C‧‧‧散熱隔間 C‧‧‧Cooling compartment

Claims (10)

一種儲能系統設備，包括： 一儲能櫃體，其內部包括一控制室、一電池室及一內隔間牆，該內隔間牆分隔於該控制室與該電池室之間，其中，該電池室包括有一外側壁、一內側板、至少一容置箱及一走道空間，該外側壁與該內側板之間夾層形成一散熱隔間，該外側壁開設至少一散熱孔，該內側板開設至少一通風口，該至少一散熱孔與該至少一通風口分別連通於該散熱隔間，該至少一容置箱設置於該內側板與該走道空間之間，該至少一容置箱包括一背板，該背板開設至少一排熱口，該至少一排熱口對應連通該內側板之該至少一通風口；以及 複數個電池堆疊，容設於該至少一容置箱中。 An energy storage system equipment, including: An energy storage cabinet, which includes a control room, a battery room and an inner partition wall, the inner partition wall is partitioned between the control room and the battery room, wherein the battery room includes an outer side wall, An inner panel, at least one containing box and a walkway space, a heat dissipation compartment is formed between the outer side wall and the inner panel, the outer side wall defines at least one heat dissipation hole, and the inner side panel defines at least one vent, the at least A heat dissipation hole and the at least one vent are respectively connected to the heat dissipation compartment. The at least one accommodation box is disposed between the inner panel and the aisle space. The at least one accommodation box includes a back plate, and the back plate is opened At least one row of heat ports corresponding to the at least one vent opening communicating with the inner panel; and A plurality of battery stacks are accommodated in the at least one storage box. 如請求項1所述之儲能系統設備，其中該電池室之該外側壁更開設至少一對流孔，該至少一對流孔的高度位置低於該至少一散熱孔之高度位置。The energy storage system device according to claim 1, wherein the outer side wall of the battery chamber is further provided with at least one pair of flow holes, and the height position of the at least one pair of flow holes is lower than the height position of the at least one heat dissipation hole. 如請求項1所述之儲能系統設備，其中該外側壁設有一維修門，該至少一散熱孔設於該維修門上。The energy storage system device according to claim 1, wherein the outer side wall is provided with a maintenance door, and the at least one heat dissipation hole is provided on the maintenance door. 如請求項1所述之儲能系統設備，其中該至少一散熱孔處更設有一排風扇。The energy storage system device according to claim 1, wherein the at least one heat dissipation hole is further provided with a row of fans. 如請求項1所述之儲能系統設備，其中該內隔間牆為一防火內隔間牆。The energy storage system device according to claim 1, wherein the inner partition wall is a fireproof inner partition wall. 如請求項1所述之儲能系統設備，其中該電池室更包括一防火牆，該防火牆將該電池室分隔成多個部分。The energy storage system device according to claim 1, wherein the battery chamber further includes a firewall that divides the battery chamber into a plurality of parts. 如請求項1所述之儲能系統設備，其中該背板開設有多個該排熱口，該內側板開設有多個該通風口，該些排熱口分別對應連通該些通風口。The energy storage system device according to claim 1, wherein the back plate is provided with a plurality of the heat exhaust ports, and the inner plate is provided with a plurality of the air vents, and the heat exhaust ports correspond to the vents respectively. 如請求項1所述之儲能系統設備，其中該背板開設有多個該排熱口，該內側板之該至少一通風口對應連通該些排熱口。The energy storage system device according to claim 1, wherein the back plate is provided with a plurality of the heat exhaust ports, and the at least one vent on the inner panel corresponds to the heat exhaust ports. 如請求項1所述之儲能系統設備，其中該走道空間更連通於一空調裝置之一出風口。The energy storage system device according to claim 1, wherein the aisle space is further connected to an air outlet of an air conditioning device. 如請求項1所述之儲能系統設備，其中該控制室內設有一配電裝置，該些電池堆疊電連接於該配電裝置。The energy storage system device according to claim 1, wherein a power distribution device is provided in the control room, and the battery stacks are electrically connected to the power distribution device.

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