KR102212492B1 - ESS storage installation unit - Google Patents

Abstract

Disclosed is an energy storage system (ESS) storage installation unit which fundamentally prevents an ESS storage from being exposed to moisture of the ground to prevent corrosion, deformation, and breakage of the ESS storage, thereby increasing use life of a product. According to one embodiment of the present invention, the ESS storage installation unit is configured to receive an ESS storage to the inside to protect the ESS storage from the outside. The ESS storage installation unit comprises: a receiving main body including a bottom part supported to a surface of the ground, a plurality of column parts vertically disposed at corners of the bottom part, a cover part supported to the plurality of column parts to face the bottom part, and an outer wall part arranged between the plurality of column parts along boundaries of the bottom part and the cover part; and a support part disposed on the bottom part to support the ESS storage and forming a flow path to allow air to flow between the bottom part and the ESS storage.

Description

ESS storage installation unit

The present invention relates to an ESS storage device installation unit, and more particularly, to an ESS storage device installation unit used as a mobile house.

In general, a container is a means for transporting a large amount of cargo, but it is sometimes used by remodeling it for residence by taking advantage of the features of high mobility and a wide interior space.

In relation to residential use, it was common to use only insulation treatment and entrance treatment inside one container, but recently, there is a trend of increasing use in connection with various forms by utilizing the simple structure of the container. .

In bonding, it is common to interlock through welding at the time of initial construction, but in the case of welding construction, there is a problem in that the construction cost is increased because it is impossible to change the structure and the working time is lengthened.

The present invention has been devised to solve the above problems, and the ESS storage device installation unit used for freight transportation can be easily manufactured as a mobile house.

The subject of the present invention is not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The ESS storage unit installation unit includes a bottom portion for receiving cargo.

The ESS storage device installation unit according to an embodiment of the present invention for solving the above problem is an ESS storage device installation unit configured to receive the ESS storage device inside and protect the ESS storage device from the outside, and the floor supported on the ground A portion, a plurality of pillar portions vertically disposed at the corners of the bottom portion, a cover portion supported by the plurality of pillar portions and disposed opposite the bottom portion, and the plurality of the plurality of pillar portions along the edges of the bottom portion and the cover portion A receiving body including an outer wall portion disposed between the pillar portions; And a support unit disposed on the bottom portion to support the ESS storage device, and forming a flow path to allow air to flow between the bottom portion and the ESS storage device.

A plurality of batteries are installed inside, further comprising a battery installation unit detachably coupled to the upper portion of the receiving body, wherein the battery installation unit is coupled to the upper portion of the receiving body, wherein the plurality of batteries are installed Battery support panels; A separation prevention fence installed around the battery support panel to prevent separation of the battery support panel; And a support panel buffer unit disposed between the battery support panel and the receiving body to support the battery support panel, and configured to attenuate vibrations applied to the battery support panel, wherein the support panel buffer unit comprises: A'L'-shaped support bracket seated on the upper part of the main body and supporting the battery support panel; A horizontal buffer unit configured to attenuate vibrations acting on the battery support panel in a horizontal direction by restraining the battery support panel in a horizontal direction; And a vertical buffer unit configured to attenuate vibrations acting on the battery support panel in a vertical direction by restraining the battery support panel in a vertical direction, wherein the horizontal buffer unit is disposed between the support bracket and the battery support panel. A first buffer pad to attenuate vibrations acting in a horizontal direction in the battery support panel; A first elastic member disposed between the support bracket and the battery support panel to elastically support the battery support panel in a horizontal direction; And pressing the battery support panel, the first elastic member, the first buffer pad and the support bracket, and pressing the battery support panel and the support bracket disposed opposite to each other, and the first elastic member and the first buffer. A second buffer pad comprising a first fastening member configured to fix the pad, wherein the vertical buffer part is disposed between the support bracket and the battery support panel to attenuate vibrations acting in a vertical direction on the battery support panel ; A second elastic member disposed between the support bracket and the battery support panel to elastically support the battery support panel in a vertical direction; And pressing the battery support panel and the support bracket through the battery support panel, the second elastic member, the second buffer pad, and the support bracket and disposed opposite to each other. And a second fastening member configured to fix a pad, wherein the support unit supports the first ESS storage device, and slides along the longitudinal direction of the accommodation body to accommodate the first ESS storage device. A first support unit configured to be disposed outside of or inside the receiving body; And a second support unit configured to support the second ESS storage device, and to place the second ESS storage device outside the receiving body or inside the receiving body while being slid along the longitudinal direction of the receiving body. Including, the first support unit and the second support unit, ESS support bracket configured to support the ESS storage device; A slide bracket disposed under the ESS support bracket, coupled with the ESS support bracket, and configured to slide in a forward and backward direction; A horizontal coupling part which is fastened to the ESS support bracket and the slide bracket in a horizontal direction to couple the ESS support bracket and the slide bracket, and to elastically support the ESS support bracket and the slide bracket in a horizontal direction; A vertical shock absorber disposed between the ESS support bracket and the slide bracket and configured to distribute the load while slipping and compressing when a load acts in a vertical direction;

A slide roller disposed on the receiving body to support a bottom surface of the slide bracket, and configured to slide the slide bracket in a forward and backward direction by generating a rotational force; And a guide bracket disposed on the receiving body to support left/right side and bottom surfaces of the slide bracket, and guide the slide bracket in a forward and backward direction when the slide bracket slides, wherein the ESS support bracket, An ESS accommodating groove accommodating a part of the lower side of the ESS storage device and supporting an outer surface of the ESS storage device to limit the flow of the ESS storage device in a front-rear direction and a left-right direction; And a plurality of first coupling blades disposed opposite to each other along a left and right direction, wherein the slide bracket includes: a plurality of second coupling blades disposed opposite to the plurality of first coupling blades; And a guide rail supported by the slide roller and moved in a front-rear direction by the slide roller, wherein the horizontal coupling portion includes a first coupling blade disposed on one side of the ESS support bracket along a left-right direction and a left-right direction A first horizontal coupling portion disposed along one side of the slide bracket and coupled to a second coupling blade disposed opposite to the first coupling blade disposed on one side of the ESS support bracket; And a first coupling wing disposed on the other side of the ESS support bracket along the left and right direction, and a first coupling wing disposed on the other side of the slide bracket along the left and right direction and disposed opposite to the first coupling wing disposed on the other side of the ESS support bracket. And a second horizontal coupling portion coupled to the second coupling blade to be coupled, the first horizontal coupling portion, a first coupling blade disposed on one side of the ESS support bracket and a second coupling disposed on one side of the slide bracket A first fastening member configured to pass through the blades and press the first coupling blade and the second coupling blade to fix the first coupling blade and the second coupling blade; And a first cushioning support part disposed between the first coupling blade and the second coupling blade and elastically supporting the first coupling blade and the second coupling blade in a horizontal direction, and the second horizontal coupling The part passes through the first coupling blade disposed on the other side of the ESS support bracket and the second coupling blade disposed on the other side of the slide bracket, and presses the first coupling blade and the second coupling blade to A second coupling member configured to fix the first coupling blade and the second coupling blade; And a second buffer support part disposed between the first coupling blade and the second coupling blade and elastically supporting the first coupling blade and the second coupling blade in a horizontal direction, and the vertical buffer part, A first vertical buffer unit disposed on one side of the ESS support bracket and the slide bracket along the left and right directions to distribute a load in a vertical direction; And a second vertical shock absorber disposed on the other side of the ESS support bracket and the slide bracket along the left and right directions to distribute a load in a vertical direction, wherein the first vertical shock absorber is disposed on the upper surface of the slide bracket. A first elastic support portion disposed, having a spherical slip surface formed at an end thereof, and formed of an elastic material; And a first elastic pressing part disposed on a lower surface of the ESS support bracket and provided in a spherical shape having an end supported on the slip surface, and the second vertical buffering part,

A second elastic support portion disposed on an upper surface of the slide bracket to face the first elastic support portion along a left-right direction, a spherical slip surface formed at an end thereof, and formed of an elastic material; And a second elastic pressing part disposed on a lower surface of the ESS support bracket and provided in a spherical shape with an end supported on the slip surface, wherein the guide bracket is disposed between the guide bracket and the slide bracket, It includes a plurality of rolling members configured to guide the slide bracket by performing a rolling motion in contact with the outer surface of the slide bracket when the slide bracket slides, and is disposed on the inner surface of the receiving body, in vertical and horizontal directions A first support unit buffer unit configured to elastically support the first ESS storage device; A second support unit buffer unit disposed on the inner surface of the receiving body and configured to elastically support the second ESS storage device in vertical and horizontal directions; An air conditioning unit disposed in the receiving body and configured to exchange air inside the receiving body and air outside the receiving body with each other; And a solar charging unit disposed on both sides of the receiving body and configured to generate current while being rotated to achieve a predetermined angle with respect to the side surface of the receiving body and exposed to sunlight, the first support unit The buffer unit and the second support unit buffer unit may include: a vertical buffer unit configured to elastically support upper surfaces of the first ESS storage device and the second ESS storage device in a vertical direction; And a horizontal buffer unit configured to elastically support side surfaces of the first ESS storage device and the second ESS storage device in a horizontal direction, wherein the vertical buffer unit and the horizontal buffer unit include: A fixed cover coupled to and supported on; It is disposed opposite to the fixed cover, and a guide surface for supporting and guiding the outer surface of the ESS storage device is formed on the outside, and one side and the other side of the guide surface are respectively in the front and rear directions in which the ESS storage device is moved. A guide cover formed in a structure bent in an arc shape toward the fixed cover; A support shaft disposed between the fixed cover and the guide cover; A fixing ring fixedly disposed on one side of the support shaft; A movable ring disposed on the other side of the support shaft and movable along the outer surface of the support shaft; A first link unit of an'X' shape disposed between the fixed cover and the support shaft, one side rotatably coupled to the fixed cover and the other side rotatably coupled to the fixed ring and the movable ring; A second link unit of an'X' shape disposed between the guide cover and the support shaft, one side rotatably coupled to the guide cover and the other side rotatably coupled to the fixing ring and the movable ring; A first elastic buffer member configured to connect one side of the fixing ring and one side of the movable ring to each other and elastically support the movable ring with respect to the fixing ring; And a second elastic buffer member configured to connect the other side of the fixing ring and the other side of the movable ring to each other, and elastically support the movable ring with respect to the fixing ring, wherein the movable ring, When the fixing cover and the guide cover are close to each other, the first link unit and the second link unit extending in the longitudinal direction of the support shaft are pressed to move away from the fixing ring, and the fixing cover and the guide cover are When moving away, the first elastic buffer member and the second elastic buffer member that contract in the longitudinal direction of the support shaft are pressed and disposed to be close to the fixing ring, and the solar charging unit includes a bracket disposed on the receiving body ; A rotation cover that is rotatably coupled to the bracket and disposed to achieve a predetermined angle with respect to the outer surface of the receiving body; A solar panel accommodated in the rotating cover so that one surface is exposed to the external space and rotated by the rotating cover; And one side is rotatably coupled to the receiving body, the other side is rotatably coupled to the rotating cover, and includes a hydraulic cylinder configured to rotate the rotating cover while extending or contracting.

The first support unit and the second support unit are disposed on the bottom of the slide bracket, and when the slide bracket is slid and disposed in the outer space of the receiving body, it is supported on the ground while being deployed outward by an elastic force. A support support wheel configured to support the slide bracket in a vertical direction and perform a rolling motion on the ground when the slide bracket slides to distribute the load of the slide bracket to the ground; And rotatably coupled to both sides of the ESS support bracket, and when the slide bracket is slid and disposed in the outer space of the receiving body, it is rotated to be perpendicular to the ground, and then extended along the vertical direction to the ground. It may further include a hydraulic jack configured to distribute the load of the slide bracket to the ground while being supported.

The rotating cover may include a first cover rotatably coupled to the bracket and rotated by the hydraulic cylinder; And a second cover accommodated in the first cover and slid along the inner surface of the first cover to protrude to the outside of the first cover, wherein the solar panel comprises: the first cover A first panel disposed on the; And a second panel rotatably coupled to an end portion of the first panel through a hinge shaft so as to be deployed and folded, and deployed to the outside to be disposed on the second cover.

According to an embodiment of the present invention, the present invention has been devised to solve the above problems, and the ESS storage device installation unit used for freight transportation can be easily manufactured as a mobile house.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the present invention.

1 is a diagram schematically showing an ESS storage device installation unit according to an embodiment of the present invention.
2 is a diagram schematically showing a state in which a battery installation unit is installed in an ESS storage device installation unit according to an embodiment of the present invention.
3 is an enlarged view specifically showing a portion "A" of FIG. 2.
4 is a view showing the internal structure of an ESS storage device installation unit according to an embodiment of the present invention.
5 is a view showing a support unit of the ESS storage device installation unit according to an embodiment of the present invention.
6 is a view showing a state in which the support unit of the ESS storage device installation unit protrudes to the outside of the receiving body according to an embodiment of the present invention.
7 is an enlarged view specifically showing a portion "B" of FIG. 4.
8 is a view showing a state in which the solar charging unit of the ESS storage device installation unit is rotated according to an embodiment of the present invention.
9 is a view showing an expanded state of the solar charging unit of the ESS storage device installation unit according to an embodiment of the present invention.

Hereinafter, various embodiments will be described in more detail with reference to the accompanying drawings. The embodiments described in this specification may be variously modified. Certain embodiments may be depicted in the drawings and described in detail in the detailed description. However, specific embodiments disclosed in the accompanying drawings are only intended to facilitate understanding of various embodiments. Therefore, the technical idea is not limited by the specific embodiments disclosed in the accompanying drawings, and it is to be understood as including all equivalents or substitutes included in the spirit and scope of the invention.

Terms including ordinal numbers such as first and second may be used to describe various elements, but these elements are not limited by the above-described terms. The above-described terms are used only for the purpose of distinguishing one component from other components.

In the present specification, terms such as "comprises" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance. When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. Should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

Meanwhile, a "module" or "unit" for a component used in the present specification performs at least one function or operation. In addition, the "module" or "unit" may perform a function or operation by hardware, software, or a combination of hardware and software. In addition, a plurality of "modules" or a plurality of "units" excluding "module" or "unit" to be performed in specific hardware or performed by at least one processor may be integrated into at least one module. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be abbreviated or omitted.

The present invention relates to an ESS storage device installation unit, and more particularly, to an ESS storage device installation unit capable of protecting the ESS storage device from the outside.

In general, an ESS (Energy Storage System) storage device is an energy storage system that stores energy using a physical medium, and an ESS storage device includes a housing installed on the ground and a battery installed inside the housing, PCS, EMS, TR, etc. Consists of

The housing of such an ESS storage device is made of a steel-based material having strong durability in order to safely protect a plurality of equipment accommodated therein from external shocks.

However, since the bottom of the housing made of steel-based material is in direct contact with the ground, it is gradually corroded over time and rust is generated, and as a result, the rusted part gradually becomes weaker and collapses without withstanding the load or pressure. There was a problem of becoming or being deformed.

Therefore, conventionally, in order to solve the above problems, a method of periodically replacing the housing is used.

However, the method of replacing the housing is to remove all the equipment contained in the housing, remove the existing housing, install a new housing in the location where the existing housing has been removed, and then replace the equipment removed from the existing housing with the new housing. As it needs to be reinstalled inside, there is a problem in that the work is complicated and a considerable amount of time is consumed in replacing the housing.

In addition, in the method of replacing the housing, there is a high probability that an abnormality occurs in the equipment during the reinstallation process of the equipment removed from the existing housing into the new housing, and there is a problem in that the system must be reset for the operation of the equipment after the reinstallation.

In addition, the method of replacing the housing has a problem that an expensive cost is generated whenever the housing is periodically replaced.

The present invention was conceived to solve the above problems, and an object of the present invention is to prevent corrosion, deformation and damage of the ESS storage device by fundamentally blocking the ESS storage device from being exposed to moisture on the ground, and It is to provide an ESS storage device installation unit that can increase the service life of the product and can stably move the ESS storage device without disassembling the ESS storage device when installing and replacing the ESS storage device.

According to an embodiment of the present invention, exposure of the ESS storage device to the ground moisture is prevented from being exposed to moisture on the ground to prevent corrosion, deformation, and damage of the ESS storage device, thereby increasing the service life of the product, and ESS storage. When installing and replacing the device, the ESS storage device can be stably moved without disassembling the ESS storage device.

In addition, when the ESS storage device is moved, equipment such as a crane is not directly connected to the ESS storage device, but is connected to the receiving body to move the ESS storage device, thereby preventing deformation and damage of the ESS storage device.

In addition, in the case of the battery installation unit stacked on the upper part of the receiving body, as the battery is attached to the upper part of the receiving body while the battery is mounted, a method of attaching the plate to the upper part of the receiving body and then installing the battery on the plate at the site. Compared to that, it can significantly shorten the working time and prevent safety accidents that occur when installing batteries.

1 is a diagram schematically showing an ESS storage device installation unit according to an embodiment of the present invention.

Referring to FIG. 1, the ESS storage device installation unit 1 (hereinafter referred to as'ESS storage device installation unit 1)' according to an embodiment of the present invention accommodates an ESS storage device (ESS) to store ESS. It is configured to protect the device (ESS) from the outside. The ESS storage device installation unit is a container device.

The ESS storage device installation unit 1 includes a receiving body 11 and a support unit 12.

The receiving body 11 is supported by a floor part 111 supported on the ground, a plurality of column parts 112 disposed perpendicular to the corners of the floor part 111, and a plurality of column parts 112 It includes a cover portion 113 disposed opposite to 111, and an outer wall portion 114 disposed between the plurality of pillar portions 112 along the edges of the bottom portion 111 and the cover portion 113.

The support unit 12 is disposed on the bottom part 111 to support the ESS storage device (ESS), and forms a flow path 12A to allow air to flow between the bottom part 111 and the ESS storage device (ESS). do. Accordingly, it is possible to prevent the ESS storage device (ESS) from being corroded by moisture or contaminated with mold.

2 is a diagram schematically showing a state in which a battery installation unit is installed in an ESS storage device installation unit according to an embodiment of the present invention.

1 and 2, the ESS storage device installation unit 1 may further include a battery installation unit 13.

The battery installation unit 13 has a plurality of batteries B installed inside, and may be detachably coupled to an upper portion of the receiving body 11.

The battery installation unit 13 is coupled to an upper portion of the receiving body 11 and is installed around a battery support panel 131 on which a plurality of batteries B are installed, and a battery support panel is installed around the battery support panel 131. A separation prevention fence 132 that prevents separation of the 131, is disposed between the battery support panel 131 and the receiving body 11 to support the battery support panel 131, and is applied to the battery support panel 131 It may include a support panel buffer unit 133 configured to attenuate the losing vibration.

3 is an enlarged view specifically showing a portion "A" of FIG. 2.

Referring to FIG. 3, the support panel buffer part 133 is mounted on the upper portion of the receiving body 11 and has an'L'-shaped support bracket 133A supporting the battery support panel 131 in a horizontal direction. A horizontal buffer unit 133B configured to restrain the battery support panel 131 to attenuate vibrations acting on the battery support panel 131 in the horizontal direction, and the battery support panel 131 to restrain the battery support panel 131 in a vertical direction to support the battery. It may include a vertical buffer unit (133C) configured to attenuate the vibration acting in the vertical direction on the panel 131.

The horizontal buffer unit 133B is disposed between the support bracket 133A and the battery support panel 131 to attenuate vibrations acting in the horizontal direction on the battery support panel 131, and a first buffer pad 133B1 is supported. A first elastic member 133B2, a battery support panel 131, and a first elastic member disposed between the bracket 133A and the battery support panel 131 to elastically support the battery support panel 131 in the horizontal direction. The first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first elastic member 133B2 and the first by pressing 133B2, the battery support panel 131 and the support bracket 133A, which are disposed opposite to each other, through the first buffer pad 133B1 and the support bracket 133A It may include a first fastening member (133B3) configured to fix the buffer pad (133B1).

The vertical buffer part 133C is disposed between the support bracket 133A and the battery support panel 131 to attenuate vibrations acting in the vertical direction on the battery support panel 131, and the support A second elastic member 133C2 disposed between the bracket 133A and the battery support panel 131 to elastically support the battery support panel 131 in a vertical direction, the battery support panel 131, and a second elastic member The second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the second elastic member 133C2 and the 2 It may include a second fastening member (133C3) configured to fix the buffer pad (133C1).

4 is a view showing the internal structure of an ESS storage device installation unit according to an embodiment of the present invention.

Referring to FIG. 4, the support unit 12 may include a first support unit 121 and a second support unit 122.

The first support unit 121 supports the first ESS storage device ESS1, slides along the longitudinal direction of the accommodation body 11, and accommodates the first ESS storage device ESS1 outside or outside of the receiving body 11 It can be placed inside the housing body 11.

The second support unit 122 supports the second ESS storage device ESS2, slides along the longitudinal direction of the receiving body 11, and accommodates the second ESS storage device ESS2 outside of the receiving body 11 or It can be placed inside the housing body 11.

The first support unit 121 and the second support unit 122 may have the same structure.

5 is a view showing a support unit of the ESS storage device installation unit according to an embodiment of the present invention.

Referring to FIG. 5, the first support unit 121 and the second support unit 122 may include an ESS support bracket ESB configured to support an ESS storage device ESS.

For example, the ESS support bracket (ESB) accommodates a part of the lower side of the ESS storage device (ESS), and supports the outer surface of the ESS storage device (ESS) so that the ESS storage device (ESS) flows in the front and rear directions and the left and right directions. It may include an ESS receiving groove (ESG) to limit the, and a plurality of first coupling blades (CW1) disposed opposite to each other along the left and right direction.

In addition, the first support unit 121 and the second support unit 122 are disposed under the ESS support bracket (ESB), coupled with the ESS support bracket (ESB), and slide bracket configured to slide in the front and rear direction. (SB) may be included.

For example, the slide bracket (SB) is supported by a plurality of second engaging blades (CW2) arranged opposite to the plurality of first engaging blades (CW1), the slide roller (SR), and the slide roller (SR). It may include a guide rail (G) that is moved in the front-rear direction.

In addition, the first support unit 121 and the second support unit 122 are fastened to the ESS support bracket (ESB) and the slide bracket (SB) in the horizontal direction to connect the ESS support bracket (ESB) and the slide bracket (SB). It may include a horizontal coupling portion (VC) configured to elastically support the ESS support bracket (ESB) and the slide bracket (SB) in a horizontal direction.

For example, the horizontal coupling portion VC may include a first horizontal coupling portion VC1 and a second horizontal coupling portion VC2. The first horizontal coupling part (VC1) is arranged on one side of the first coupling blade (CW1) and the slide bracket (SB) arranged along the left and right direction on one side of the ESS support bracket (ESB) and supports the ESS. It may be combined with a second coupling blade CW2 disposed opposite to the first coupling blade CW1 disposed on one side of the bracket ESB. Specifically, the first horizontal coupling portion (VC1), a first coupling blade (CW1) disposed on one side of the ESS support bracket (ESB) and a second coupling blade (CW2) disposed on one side of the slide bracket (SB) ), and configured to fix the first coupling blade (CW1) and the second coupling blade (CW2) by pressing the first coupling blade (CW1) and the second coupling blade (CW2) ) And, a first cushioning disposed between the first coupling blade (CW1) and the second coupling blade (CW2), and elastically supporting the first coupling blade (CW1) and the second coupling blade (CW2) in the horizontal direction It may include a support (SS1). The second horizontal coupling part (VC2) is arranged on the other side of the first coupling blade (CW1) and the slide bracket (SB) along the left and right direction on the other side of the ESS support bracket (ESB) to support the ESS. It may be combined with a second coupling blade CW2 disposed opposite to the first coupling blade CW1 disposed on the other side of the bracket ESB. Specifically, the second horizontal coupling portion (VC2), a first coupling blade (CW1) disposed on the other side of the ESS support bracket (ESB) and a second coupling blade (CW2) disposed on the other side of the slide bracket (SB) ), and configured to fix the first coupling blade (CW1) and the second coupling blade (CW2) by pressing the first coupling blade (CW1) and the second coupling blade (CW2). ), and a second buffer disposed between the first coupling blade (CW1) and the second coupling blade (CW2), and elastically supporting the first coupling blade (CW1) and the second coupling blade (CW2) in the horizontal direction It may include a support (SS2).

In addition, the first support unit 121 and the second support unit 122 are disposed between the ESS support bracket (ESB) and the slide bracket (SB), and when a load is applied in the vertical direction, slip and compression While being configured to distribute the load may include a vertical buffer (VSM).

For example, the vertical buffer unit (VSM) is disposed on one side of the ESS support bracket (ESB) and the slide bracket (SB) along the left and right direction and is configured to distribute the load in the vertical direction ( VSM1) and a second vertical buffer unit (VSM2) disposed on the other side of the ESS support bracket (ESB) and the slide bracket (SB) along the left and right directions to distribute the load in the vertical direction. Specifically, the first vertical buffer unit (VSM1) is disposed on the upper surface of the slide bracket (SB), a spherical slip surface is formed at the end, the first elastic support unit (ESM1) formed of an elastic material, and ESS support It may include a first elastic pressing portion (EPM1) disposed on the lower surface of the bracket (ESB), the end is provided in a spherical shape supported by the slip surface. And, the second vertical buffer portion (VSM2) is disposed on the upper surface of the slide bracket (SB) so as to face the first elastic support portion (ESM1) along the left and right direction, a spherical slip surface is formed at the end, and made of an elastic material. It may include a second elastic support portion (ESM2) to be formed, and a second elastic pressing portion (EPM2) disposed on the lower surface of the ESS support bracket (ESB) and provided in a spherical shape whose end portion is supported on the slip surface.

In addition, the first support unit 121 and the second support unit 122 are disposed on the receiving body 11 to support the bottom surface of the slide bracket SB and generate a rotational force to move the slide bracket SB in the front and rear directions. The slide roller (SR) is configured to slide in a direction, and is disposed on the receiving body 11 to support the left/right side and the bottom of the slide bracket (SB), and when the slide bracket (SB) slides, the slide bracket (SB) ) May include a guide bracket (GB) configured to guide in the front-rear direction.

For example, the guide bracket (GB) is disposed between the guide bracket (GB) and the slide bracket (SB), and when the slide bracket (SB) slides, rolling movement in contact with the outer surface of the slide bracket (SB) It may include a plurality of rolling members (RM) configured to guide the slide bracket (SB).

6 is a view showing a state in which the support unit of the ESS storage device installation unit protrudes to the outside of the receiving body according to an embodiment of the present invention.

4 and 6, the first support unit 121 and the second support unit 122 may further include a support support wheel SW and a hydraulic jack HJ.

A plurality of support support wheels (SW) are provided and disposed on the bottom of the slide bracket (SB), and when the slide bracket (SB) slides and is disposed in the outer space of the receiving body 11, it expands to the outside by elastic force and It is supported by and supports the slide bracket SB in the vertical direction, and may be configured to distribute the load of the slide bracket SB to the ground by performing a rolling motion on the ground when the slide bracket SB slides.

A plurality of hydraulic jacks (HJ) are provided and rotatably coupled to both sides of the ESS support bracket (ESB), and when the slide bracket (SB) is slid and disposed in the outer space of the receiving body 11, the vertical to the ground After being rotated to be possible, it may be configured to be extended along the vertical direction and supported on the ground to distribute the load of the slide bracket SB to the ground.

Referring to FIG. 4, the ESS storage device installation unit 1 is disposed on the inner surface of the main body 11 and is configured to elastically support the first ESS storage device ESS1 in vertical and horizontal directions. The support unit buffer unit 14 and a second support unit buffer unit 15 disposed on the inner surface of the receiving body 11 and configured to elastically support the second ESS storage device ESS2 in vertical and horizontal directions. It may further include.

The first support unit buffer unit 14 and the second support unit buffer unit 15 are configured to elastically support the upper surfaces of the first ESS storage unit ESS1 and the second ESS storage unit ESS2 in a vertical direction. It may include a vertical buffer unit (VSU) and a horizontal buffer unit (HSU) configured to elastically support side surfaces of the first ESS storage unit ESS1 and the second ESS storage unit ESS2 in a horizontal direction. .

7 is an enlarged view specifically showing a portion "B" of FIG. 4.

Referring to FIGS. 4 and 7, a vertical buffer unit (VSU) and a horizontal buffer unit (HSU) are disposed opposite to the fixing cover (FC) and supported by being coupled to the inner surface of the receiving body (11). And, a guide surface (GS) that supports and guides the outer surface of the ESS storage device (ESS) is formed on the outside, and one side and the other side of the guide surface (GS) along the front and rear direction in which the ESS storage device (ESS) moves. Each of these may include a guide cover GC formed in a structure bent in an arc shape toward the fixed cover FC. In addition, the vertical buffer unit (VSU) and the horizontal buffer unit (HSU) have a support shaft (S) disposed between the fixed cover (FC) and the guide cover (GC), and fixedly disposed on one side of the support shaft (S). It may include a fixed ring R1 and a movable ring R2 disposed on the other side of the support shaft S and movable along the outer surface of the support shaft S. In addition, the vertical buffer unit (VSU) and the horizontal buffer unit (HSU) are disposed between the fixed cover (FC) and the support shaft (S), one side is rotatably coupled to the fixed cover (FC) and the other side is a fixing ring ( It is disposed between the'X'-shaped first link unit (LU1) rotatably coupled to R1) and the moving ring (R2), the guide cover (GC) and the support shaft (S), and one side is the guide cover (GC). ) Rotatably coupled to the other side may include a second link unit (LU2) of the'X' shape that is rotatably coupled to the fixed ring (R1) and the moving ring (R2). In addition, the vertical buffer unit (VSU) and the horizontal buffer unit (HSU) connect one side of the fixed ring (R1) and one side of the moving ring (R2) to each other, and the moving ring (R2) with respect to the fixed ring (R1). The first elastic cushioning member EM1, which is configured to elastically support the device, connects the other side of the fixing ring R1 and the other side of the movable ring R2, and a movable ring with respect to the fixing ring R1. It may include a second elastic buffer member (EM2) configured to elastically support (R2).

Here, the moving ring R2 includes a first link unit LU1 and a second link unit LU2 extending in the longitudinal direction of the support shaft S when the fixing cover FC and the guide cover GC are close to each other. ) Is pressed to move away from the fixing ring R1, and when the fixing cover FC and the guide cover GC move away from each other, the first elastic buffer member EM1 and the first elastic buffer member EM1 contracted in the longitudinal direction of the support shaft S 2 It may be disposed so as to be pressed against the elastic buffer member EM2 to be close to the fixing ring R1.

Referring to FIG. 4, the ESS storage device installation unit 1 is disposed in the receiving body 11 and configured to exchange the air inside the receiving body 11 and the air outside the receiving body 11 with each other. Solar charging configured to generate current while being exposed to sunlight by being rotated to achieve a predetermined angle with respect to the side of the receiving body 11 and disposed on both sides of the receiving body 11 and It may further include a unit 17.

8 is a view showing a state in which the solar charging unit of the ESS storage device installation unit is rotated according to an embodiment of the present invention.

Referring to FIG. 8, the solar charging unit 17 is rotatably coupled to the bracket 171 disposed on the receiving body 11 and the bracket 171 to provide a predetermined value with respect to the outer surface of the receiving body 11. A rotating cover 172 disposed to form an angle, a solar panel 173 accommodated in the rotating cover 172 so that one surface is exposed to the external space, and rotated by the rotating cover 172, and a receiving body ( 11) is rotatably coupled to, the other side is rotatably coupled to the rotating cover 172, and may include a hydraulic cylinder 174 configured to rotate the rotating cover 172 while extending or contracting.

Meanwhile, the solar panel 173 of the solar charging unit 17 may be provided in an expandable structure to increase the amount of current generated.

9 is a view showing an expanded state of the solar charging unit of the ESS storage device installation unit according to an embodiment of the present invention.

9, the rotating cover 172 of the solar charging unit 17 is rotatably coupled to the bracket 171, the first cover 172A rotated by the hydraulic cylinder 174, and 1 It may include a second cover 172B accommodated in the inside of the cover 172A and configured to slide along the inner surface of the first cover 172A to protrude to the outside of the first cover 172A. In addition, the solar panel 173 is rotatable through a hinge shaft 173C at the end of the first panel 173A so as to be unfolded and folded with the first panel 173A disposed on the first cover 172A. It may include a second panel 173B that is coupled and is deployed to the outside and is disposed on the second cover 172B.

As described above, according to an embodiment of the present invention, exposure of the ESS storage device (ESS) to the ground moisture is fundamentally blocked to prevent corrosion, deformation, and damage of the ESS storage device (ESS), thereby reducing the service life of the product. It can be increased, and the ESS storage device (ESS) can be stably moved without disassembling the ESS storage device (ESS) when installing and replacing the ESS storage device (ESS).

In addition, when the ESS storage device (ESS) is moved, equipment such as a crane is not directly connected to the ESS storage device (ESS) but is connected to the receiving body 11 to move the ESS storage device (ESS). ESS) can be prevented from deformation and damage.

In addition, in the case of the battery installation unit 13 stacked on the upper part of the receiving body 11, as the battery B is attached to the upper part of the receiving body 11, the upper part of the receiving body 11 After joining the plates, it is possible to significantly shorten the working time compared to the method of installing the batteries on the plates individually in the field, and to prevent safety accidents that occur when installing the batteries (B).

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and is generally used in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Various modifications are possible by those skilled in the art of course, and these modifications should not be understood individually from the technical idea or perspective of the present invention.

1. ESS storage device installation unit
11. Housing body
111. Bottom
112. Column
113. Cover
114. Outer Wall
12. Support unit
12A. Euro
121. First Support Unit
122. Second Support Unit
ESB. ESS support bracket
ESG. ESS accommodation home
CW1. First coupling wing
SB. Slide bracket
CW2. 2nd coupling wing
G. Guide rail
VC. Horizontal joint
VC1. 1st horizontal coupling part
CM1. First fastening member
SS1. First cushioning support
VC2. 2nd horizontal coupling part
CM2. 2nd fastening member
SS2. 2nd cushioning support
VSM. Vertical shock absorber
VSM1. 1st vertical buffer
ESM1. First elastic support
EPM1. First elastic pressing part
VSM2. 2nd vertical buffer
ESM2. Second elastic support
EPM2. 2nd elastic pressing part
SR. Slide roller
GB. Guide bracket
RM. Rolling member
SW. Support support wheel
HJ. Hydraulic jack
13. Battery installation unit
131. Battery support panel
132. Departure prevention fence
133. Support panel buffer
133A. Support bracket
133B. Horizontal buffer
133B1. 1st buffer pad
133B2. First elastic member
133B3. First fastening member
133C. Vertical shock absorber
133C1. 2nd buffer pad
133C2. Second elastic member
133C3. 2nd fastening member
14. 1st support unit buffer part
15. Second support unit buffer part
VSU. Vertical buffer unit
HSU. Horizontal buffer unit
FC. Fixed cover
GC. Guide cover
GS. Guide surface
S. Support shaft
R1. Retaining ring
R2. Moving ring
LU1. 1st link unit
LU2. 2nd link unit
EM1. First elastic cushioning member
EM2. Second elastic cushioning member
16. Air conditioning unit
17. Solar charging unit
171. Bracket
172. Rotating cover
172A. First cover
172B. Second cover
173. Solar Panel
173A. First panel
173B. 2nd panel
173C. Hinge shaft
174. Hydraulic cylinder
ESS. ESS storage device
ESS1. 1st ESS storage device
ESS2. 2nd ESS storage device
B. Battery

Claims (1)

As an ESS storage device installation unit configured to accommodate the ESS storage device inside and protect the ESS storage device from the outside,
A bottom portion supported on the ground, a plurality of pillar portions vertically disposed at the corners of the bottom portion, a cover portion supported by the plurality of pillar portions and disposed opposite to the bottom portion, and edges of the bottom portion and the cover portion A receiving body including an outer wall portion disposed between the plurality of pillar portions along the line;
A support unit disposed on the bottom portion to support the ESS storage device, and forming a flow path to allow air to flow between the bottom portion and the ESS storage device; And
A plurality of batteries are installed inside, including a battery installation unit detachably coupled to the upper portion of the receiving body,
The battery installation unit,
A battery support panel coupled to an upper portion of the receiving body and on which the plurality of batteries are installed;
A separation prevention fence installed around the battery support panel to prevent separation of the battery support panel; And
A support panel buffer unit disposed between the battery support panel and the receiving body to support the battery support panel, and configured to attenuate vibration applied to the battery support panel,
The support panel buffer unit,
A'L'-shaped support bracket seated on the upper portion of the receiving body and supporting the battery support panel;
A horizontal buffer unit configured to restrain the battery support panel in a horizontal direction to reduce vibrations acting on the battery support panel in a horizontal direction; And
It includes a vertical buffer unit configured to restrain the battery support panel in a vertical direction to attenuate vibrations acting in a vertical direction on the battery support panel,
The horizontal buffer unit,
A first buffer pad disposed between the support bracket and the battery support panel to attenuate vibrations acting in a horizontal direction on the battery support panel;
A first elastic member disposed between the support bracket and the battery support panel to elastically support the battery support panel in a horizontal direction; And
The first elastic member and the first buffer pad are pressed through the battery support panel, the first elastic member, the first buffer pad, and the support bracket and are disposed opposite to each other by pressing the battery support panel and the support bracket. It includes a first fastening member configured to fix the,
The vertical buffer unit,
A second buffer pad disposed between the support bracket and the battery support panel to attenuate vibrations acting in a vertical direction on the battery support panel;
A second elastic member disposed between the support bracket and the battery support panel to elastically support the battery support panel in a vertical direction; And
The second elastic member and the second buffer pad penetrate the battery support panel, the second elastic member, the second buffer pad, and the support bracket, and press the battery support panel and the support bracket disposed opposite to each other. Including a second fastening member configured to fix the,
The support unit,
A first support unit configured to support a first ESS storage device, and to place the first ESS storage device outside the receiving body or inside the receiving body while being slid along the longitudinal direction of the receiving body; And
And a second support unit configured to support a second ESS storage device, and to place the second ESS storage device outside the receiving body or inside the receiving body while sliding along the longitudinal direction of the receiving body And
The first support unit and the second support unit,
An ESS support bracket configured to support the ESS storage device;
A slide bracket disposed under the ESS support bracket, coupled with the ESS support bracket, and configured to slide in a forward and backward direction;
A horizontal coupling part fastened to the ESS support bracket and the slide bracket in a horizontal direction to couple the ESS support bracket and the slide bracket, and elastically support the ESS support bracket and the slide bracket in a horizontal direction;
A vertical shock absorber disposed between the ESS support bracket and the slide bracket and configured to distribute the load while slipping and compressing when a load acts in a vertical direction;
A slide roller disposed on the receiving body to support a bottom surface of the slide bracket, and configured to slide the slide bracket in a forward and backward direction by generating a rotational force; And
A guide bracket disposed on the receiving body to support the left/right side and the bottom of the slide bracket, and configured to guide the slide bracket in the front and rear direction when the slide bracket slides,
The ESS support bracket,
An ESS accommodating groove accommodating a part of the lower side of the ESS storage device and supporting an outer surface of the ESS storage device to limit the flow of the ESS storage device in a front-rear direction and a left-right direction; And
It includes a plurality of first coupling blades disposed opposite each other along the left and right direction,
The slide bracket,
A plurality of second coupling blades disposed opposite to the plurality of first coupling blades; And
And a guide rail supported by the slide roller and moved in a front-rear direction by the slide roller,
The horizontal coupling part,
A first coupling blade disposed on one side of the ESS support bracket along the left and right direction, and a first coupling blade disposed on one side of the slide bracket along the left and right direction to face the first coupling blade disposed on one side of the ESS support bracket. A first horizontal coupling portion coupled to the second coupling blade; And
The first coupling blade disposed on the other side of the ESS support bracket along the left and right direction, and the first coupling blade disposed on the other side of the slide bracket along the left and right direction to face the first coupling blade disposed on the other side of the ESS support bracket. Including a second horizontal coupling portion coupled to the second coupling blade,
The first horizontal coupling part,
The first coupling blade through the first coupling blade disposed on one side of the ESS support bracket and the second coupling blade disposed on one side of the slide bracket, and pressing the first coupling blade and the second coupling blade A first fastening member configured to fix the wing and the second coupling wing; And
It is disposed between the first coupling blade and the second coupling blade, and includes a first buffer support part elastically supporting the first coupling blade and the second coupling blade in a horizontal direction,
The second horizontal coupling part,
The first coupling blade penetrates through the first coupling blade disposed on the other side of the ESS support bracket and the second coupling blade disposed on the other side of the slide bracket, and presses the first coupling blade and the second coupling blade. A second fastening member configured to fix the wing and the second coupling wing; And
It is disposed between the first coupling blade and the second coupling blade, and includes a second buffer support portion elastically supporting the first coupling blade and the second coupling blade in a horizontal direction,
The vertical buffer unit,
A first vertical buffer unit disposed on one side of the ESS support bracket and the slide bracket along the left and right directions to distribute a load in a vertical direction; And
It includes a second vertical shock absorber disposed on the other side of the ESS support bracket and the slide bracket along the left and right directions and configured to distribute a load in a vertical direction,
The first vertical buffer unit,
A first elastic support portion disposed on an upper surface of the slide bracket, having a spherical slip surface formed at an end thereof, and formed of an elastic material; And
It is disposed on the lower surface of the ESS support bracket, and includes a first elastic pressing portion provided in a spherical shape, the end is supported on the slip surface,
The second vertical buffer unit,
A second elastic support portion disposed on an upper surface of the slide bracket to face the first elastic support portion along a left-right direction, a spherical slip surface formed at an end thereof, and formed of an elastic material; And
It is disposed on the lower surface of the ESS support bracket, and includes a second elastic pressing portion provided in a spherical shape supported by the end of the slip surface,
The guide bracket,
A plurality of rolling members disposed between the guide bracket and the slide bracket and configured to guide the slide bracket by performing a rolling motion in contact with the outer surface of the slide bracket when the slide bracket slides,
A first support unit buffer unit disposed on the inner surface of the receiving body and configured to elastically support the first ESS storage device in vertical and horizontal directions;
A second support unit buffer unit disposed on the inner surface of the receiving body and configured to elastically support the second ESS storage device in vertical and horizontal directions;
An air conditioning unit disposed in the receiving body and configured to exchange air inside the receiving body and air outside the receiving body with each other; And
Further comprising a solar charging unit disposed on both sides of the receiving body and configured to generate current while being rotated to achieve a predetermined angle with respect to the side of the receiving body, and exposed to sunlight,
The first support unit buffer unit and the second support unit buffer unit,
A vertical buffer unit configured to elastically support upper surfaces of the first ESS storage device and the second ESS storage device in a vertical direction; And
And a horizontal buffer unit configured to elastically support side surfaces of the first ESS storage device and the second ESS storage device in a horizontal direction,
The vertical buffer unit and the horizontal buffer unit,
A fixed cover coupled to and supported on an inner surface of the receiving body;
It is disposed opposite to the fixed cover, and a guide surface for supporting and guiding the outer surface of the ESS storage device is formed on the outside, and one side and the other side of the guide surface are respectively in the front and rear directions in which the ESS storage device moves A guide cover formed in a structure bent in an arc shape toward the fixed cover;
A support shaft disposed between the fixed cover and the guide cover;
A fixing ring fixedly disposed on one side of the support shaft;
A movable ring disposed on the other side of the support shaft and movable along the outer surface of the support shaft;
A first link unit of an'X' shape disposed between the fixed cover and the support shaft, one side rotatably coupled to the fixed cover and the other side rotatably coupled to the fixed ring and the movable ring;
A second link unit of an'X' shape disposed between the guide cover and the support shaft, one side rotatably coupled to the guide cover and the other side rotatably coupled to the fixing ring and the movable ring;
A first elastic buffer member configured to connect one side of the fixing ring and one side of the movable ring to each other and elastically support the movable ring with respect to the fixing ring; And
And a second elastic buffer member configured to connect the other side of the fixing ring and the other side of the movable ring to each other, and elastically support the movable ring with respect to the fixing ring,
The movable ring is pressed against the first link unit and the second link unit extending in the longitudinal direction of the support shaft when the fixed cover and the guide cover are close to each other to move away from the fixed ring, and the fixed cover and When the guide covers are moved away from each other, the first elastic buffer member and the second elastic buffer member contracted in the longitudinal direction of the support shaft are pressed and disposed to be close to the fixing ring,
The solar charging unit,
A bracket disposed on the receiving body;
A rotation cover that is rotatably coupled to the bracket and disposed to achieve a predetermined angle with respect to the outer surface of the receiving body;
A solar panel accommodated in the rotating cover so that one surface is exposed to the external space and rotated by the rotating cover; And
One side is rotatably coupled to the receiving body, the other side is rotatably coupled to the rotating cover, including a hydraulic cylinder configured to rotate the rotating cover while extending or contracting, ESS storage device installation unit.

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