KR102277342B1 - Sealing construction for battery module rack housing - Google Patents

Abstract

The present invention relates to a structure for sealing a rack housing of a battery module, comprising: a housing (20) having a box-shaped structure in which an inner panel (22) and an outer panel (23) are combined on a frame (21); a door member (30) for supporting an inner door (31) and an outer door -(35) on at least one surface of the housing (20) so that the same can be opened and closed; an auxiliary member (40) for supporting a first auxiliary material (41) and a second auxiliary material (42) on one surface and the other surface opposite to the outer door (35); and a sealing pad (50) interposed in a contact area between the first auxiliary material (41) and the second auxiliary material (42). Accordingly, regardless of the installation environment in which the battery module is operated, even if an extreme situation such as a fire occurs, the penetration of dust and fractionated water through the door is prevented, thereby ensuring operational reliability and increasing durability.

Description

Sealing construction for battery module rack housing

The present invention relates to a battery module rack housing, and more particularly, to a sealing structure of a battery module rack housing used as an energy storage system by accommodating a plurality of batteries on a rack.

Due to the advantages of improving the efficiency of the electric power industry along with the expansion of new and renewable energy worldwide, the utility of the energy storage system (ESS) is rapidly increasing. The ESS has a module configuration that is electrically connected in series and parallel while supporting multiple batteries in a stacked state on a rack. The housing accommodating the battery rack requires sealing to maintain operational reliability and durability. In particular, waterproof and dustproof functions are essential for the door of the housing that requires periodic opening and closing.

As prior art documents that can be referenced in this regard, Korean Patent Application Laid-Open No. 2014-0126558 (Prior Document 1), Korean Patent Publication No. 2038060 (Prior Document 2), and the like are known.

Prior Document 1 discloses a first louver seal mounted along the edge surface of the front opening of the cabinet body, and a second louver seal mounted along the inner wall edge of the door so as to be in contact with the first louver seal to seal the gap of the door. is comprised of Accordingly, it is expected to have an effect of preventing deterioration of module performance due to dust-proof, wind-proof, moisture-proof, leak-proof, and thermal effects on the electrical components and modules of the main body.

In Prior Document 2, a through hole is formed on one surface of the outer case, a separate waterproof member is coupled to the outer edge of the through hole, and a separate heat dissipation fin plate is provided to block the through hole through the through hole portion of the outer case with the waterproof member interposed therebetween. sealed to the Therefore, it is expected that it can be used safely and stably by maintaining structural stability through waterproof and dustproof functions.

However, according to the above-mentioned prior literature, it is insufficient to cover the jetting water by the nozzle in all directions of the door installed in the cabinet and the case.

Korean Patent Application Laid-Open No. 2014-0126558 "Single cabinet rack mechanism with built-in battery for outdoor base station system" (Publication date: 2014.10.31.) Korean Patent Publication No. 2038060 "Battery Cell Module Assembly" (Published Date: 2019.06.28.)

An object of the present invention for improving the problems of the prior art as described above is a battery module capable of preventing the penetration of dust and fractionated water through the door even when an extreme situation such as a fire occurs, regardless of the installation environment in which the battery module is operated An object of the present invention is to provide a sealing structure of the rack housing.

In order to achieve the above object, the present invention provides a structure for sealing a rack housing of a battery module, comprising: a box-shaped housing in which an inner panel and an outer panel are combined on a frame; a door member on at least one surface of the housing to open and close the inner door and the outer door; an auxiliary member for supporting the first auxiliary material and the second auxiliary material on the opposite surface and the other surface of the outer door; and a sealing pad interposed in a region in which the first auxiliary material and the second auxiliary material contact each other.

As a detailed configuration of the present invention, the housing is characterized in that it is provided with a sealing strip in a region in contact with the inner door.

As a detailed configuration of the present invention, the door member is characterized in that the outer door is reinforced by using a C-shaped steel coupled to the inner door.

As a modified example of the present invention, the door member further includes a heat insulating sound absorbing material between the inner door and the outer door, and it is characterized in that it further includes a wrinkle portion in some regions of the inner door and the outer door.

As a detailed configuration of the present invention, the first auxiliary material is an extruded structure having an internal partition wall portion and a bead portion on one side, and is characterized in that it has a concave portion and an extension portion of the corner on the other side.

As a detailed configuration of the present invention, the second auxiliary material is an extruded structure having an internal partition wall part and a bead part on one side, and it is characterized in that it has an extended part that can be in close contact with the extended part.

As a detailed configuration of the present invention, the sealing pad has an extruded structure having a curved portion on one side and an internal partition wall portion, and it is characterized in that it has a protrusion that can engage with the concave portion.

As described above, according to the present invention, regardless of the installation environment in which the battery module is operated, even if an extreme situation such as a fire occurs, the penetration of dust and fractionated water through the door is prevented, thereby ensuring operational reliability and increasing durability. .

1 is an external view showing a housing to which a structure according to the present invention is applied;
Figure 2 is a configuration diagram schematically showing the main part of the inner longitudinal section of Figure 1;
Figure 3 is a block diagram showing the main part according to the present invention partially separated
4 is a configuration diagram showing a part of the main part according to the present invention in an enlarged manner;
5 is a configuration diagram showing an open state of the door member according to the present invention;

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

The present invention proposes with respect to a structure for sealing the rack housing of the battery module. It is intended for a rack housing accommodating a battery of an energy storage system (ESS), but is not necessarily limited thereto. Sealing narrowly refers to the waterproof, dustproof, and soundproofing functions of regulations related to ESS, but broadly includes physical properties such as insulation, insulation, flame retardancy, and electromagnetic shielding.

According to the present invention, the housing 20 has a box-shaped structure in which the inner panel 22 and the outer panel 23 are combined on the frame 21 .

1 and 2 , a frame 21 , an inner panel 22 , an outer panel 23 and the like constituting the housing 20 are shown. The housing 20 is provided with a frame 21 at at least four corners. The housing 20 has a dual structure of the inner panel 22 and the outer panel 23 on the rear surface, the side surface, and the upper surface except for the open front surface. The inner panel 22 and the outer panel 23 are formed by bending a plate and are coupled to the frame 21 by bolting or welding.

In addition, according to the present invention, the door member 30 has a structure that supports the opening and closing of the inner door 31 and the outer door 35 on at least one surface of the housing 20 .

1 and 3 , the inner door 31 and the outer door 35 constituting the door member 30 are shown. 3 is a state in which the housing 20 as shown in FIG. 1 is connected in the lateral direction. In FIG. 3, the outer panel 23 is separated from the side surface and the upper surface of the housing 20 to expose the inner panel 22, and the outer door 35 is separated from the front of the housing 20 or the outer door 35 and The inner door 31 is all separated and exposed. The external door 35 is divided into left and right and can be opened and closed by each hinge 36 and handle 37 . The inner door 31 may have the same structure as the outer door 35 or may be coupled by bolting. The inner door 31 is formed to have a smaller thickness as well as horizontal and vertical sizes compared to the outer door 35 . The inner door 31 and the outer door 35 are also formed by bending a plate like the inner panel 22 and the outer panel 23 described above. When the door member 30 is formed in a double structure of the inner door 31 and the outer door 35, it is advantageous in terms of sealing.

As a detailed configuration of the present invention, the housing (20) is characterized in that it is provided with a sealing strip (25) in a region in contact with the inner door (31).

2 and 3, a state in which the sealing strip 25 is installed on the front surface of the housing 20 is shown. The front surface of the housing 20 is weak in terms of sealing structure in which the door member 30 is installed. The sealing strip 25 is attached in an approximately U-shape to form a closed curve on the front surface of the housing 20 . The material of the sealing strip 25 is made of a resin, rubber, or a composite material having airtightness, high elasticity, and abrasion resistance. The cross-section of the sealing strip 25 is preferably provided with a groove so that moisture flows easily. The inner door 31 maintains close contact with the sealing strip 25 while closing the front surface of the housing 20 .

As a detailed configuration of the present invention, the door member (30) is characterized in that the outer door (35) is reinforced by using the C-shaped steel (32) coupled to the inner door (31).

In FIG. 3 , the C-shaped steel 32 is installed in the vertical direction from the center of the inner door 31 . A pair of opposing external doors 35 does not have a separate vertical frame to increase work convenience for the rack 10 or the battery 15 . On the other hand, the C-shaped steel 32 is provided on the inner door 31 to indirectly protect the outer door 35 in response to an external impact.

Of course, the inner door 31, the outer door 35, and the C-shaped steel 32 constituting the door member 30 may be integrally configured. In this case, the rear surface of the C-shaped steel 32 is coupled to the inner door 31 and the front surface to the outer door 35 . The integrated structure of the door member 30 can reduce the number of installations of the hinge 36 and the handle 37 .

As a modified example of the present invention, the door member 30 further includes a heat insulating sound absorbing material 33 between the inner door 31 and the outer door 35 , and the inner door 31 and the outer door 35 . It is characterized in that it further includes a wrinkle portion 38 in some regions.

In FIG. 2 , the insulating sound absorbing material 33 and the wrinkle portion 38 provided in the door member 30 are shown. The insulating sound absorbing material 33 is closely attached to the space formed by the inner door 31 and the outer door 35 . In addition, the insulating sound-absorbing material 33 is installed between the inner panel 22 and the outer panel 23 constituting the side surface and the upper surface of the housing 20 . A wrinkle portion 38 may be installed in a gap between the housing 20 and the external door 35 . The corrugated portion 38 has a sawtooth or wavy cross section and is in close contact with the external door 35 . The wrinkle portion 38 is preferably formed using a material having flexibility while equivalent to the sealing strip 25 .

In addition, according to the present invention, the auxiliary member 40 has a structure for supporting the first auxiliary member 41 and the second auxiliary member 42 on the opposite surface and the other surface of the outer door 35 .

Referring to FIGS. 1 and 4 , a state in which the auxiliary member 40 is installed at a portion where one side of the external door 35 and the other side of the external door 35 face is shown. The first auxiliary member 41 is fixed to the one side external door 35 , and the second auxiliary member 42 is fixed to the other side external door 35 . The first auxiliary material 41 and the second auxiliary material 42 of the auxiliary member 40 increase the strength and rigidity of the door member 30 as well as the sealing properties.

As a detailed configuration of the present invention, the first auxiliary material 41 has an extruded structure having an internal partition wall portion 44 and a bead portion 45 on one side, and a concave portion 46 on the other side and an extension portion 47 on the edge. ) is characterized in that it is provided.

In FIG. 4 , the partition wall portion 44 , the bead portion 45 , the concave portion 46 , and the extension portion 47 constituting the first auxiliary member 41 are shown. The first auxiliary member 41 has a substantially triangular structure and integrates the partition wall portion 44, the bead portion 45, the concave portion 46, and the expanded portion 47 by extrusion molding. Extrusion molding is advantageous in terms of manufacturing cost as well as sealing, but is not limited thereto. The partition wall portion 44 and the bead portion 45 reinforce strength and rigidity. The bead part 45 is a part tightly fixed to the external door 35 . The recessed portions 46 are formed in a substantially T-shape in at least two places. The expanded portion 47 is formed in an approximately inverted T-shape.

As a detailed configuration of the present invention, the second auxiliary member 42 has an extruded structure having an internal partition wall portion 44 and a bead portion 45 on one side, and an extension portion 48 capable of close contact with the extension portion 47 is provided. It is characterized in that it is provided.

In FIG. 4 , the partition wall portion 44 , the bead portion 45 , and the extension portion 48 constituting the second auxiliary member 42 are shown. The second auxiliary material 42 also has a substantially triangular structure similar to the first auxiliary material 41 and integrates the partition wall portion 44, the bead portion 45, and the extension portion 48 by extrusion molding. Extrusion molding is advantageous in terms of manufacturing cost as well as sealing, but is not limited thereto. The partition wall portion 44 and the bead portion 45 reinforce strength and rigidity. The bead part 45 is a part tightly fixed to the external door 35 . The extended part 48 is formed to have a length reaching the opposite external door 35 while being in close contact with the extended part 47 .

Further, according to the present invention, the sealing pad 50 has a structure in which the first auxiliary material 41 and the second auxiliary material 42 are in contact with each other.

3 and 4 , the sealing pad 50 is interposed between the first auxiliary material 41 and the second auxiliary material 42 . An area in which the first auxiliary member 41 and the second auxiliary member 42 having a substantially triangular structure contact each other forms an inclined surface. The installation of the sealing pad 50 on such an inclined surface is suitable to prevent the penetration of dust and fractionated water through the door even if an extreme situation such as a fire occurs together with the above-described sealing strip 25 .

As a detailed configuration of the present invention, the sealing pad 50 has an extruded structure having a curved surface portion 52 on one side and a partition wall portion 54 inside, and has a protrusion portion 56 engageable with the concave portion 46 characterized in that

In FIG. 3 , a curved portion 52 , a partition wall portion 54 , and a protrusion portion 56 constituting the sealing pad 50 are shown. The sealing pad 50 may use a material having properties equivalent to that of the above-described sealing strip 25 . The curved portion 52 is in close contact with the inclined surfaces of the first auxiliary member 41 and the second auxiliary member 42 to increase the contact length, thereby increasing the sealing force. The partition wall 54 reinforces strength and rigidity. The protrusion 56 protrudes in a substantially T-shape and engages with the concave portion 46 of the first auxiliary member 41 without a separate fastening member.

Referring to FIG. 5 , when the door member 30 on one side is opened, the second auxiliary member 42 is easily separated from the sealing pad 50 coupled to the first auxiliary member 41 of the other door member 30 . Depending on the environment in which the housing 20 is installed, even if strong spray water acts through the nozzle in case of a rapid rainfall or an adjacent fire, the double structure of the door member 30, the sealing pad 50, the sealing strip 25, etc. Operational reliability is maintained.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

10: rack 15: battery
20: housing 21: frame
22: inner panel 23: outer panel
25: sealing strip 30: door member
31: inner door 32: C-beam
33: insulating sound-absorbing material 35: external door
36: hinge 37: handle
38: pleated 40: auxiliary member
41: first auxiliary material 42: second auxiliary material
44: bulkhead part 45: bead part
46: groove part 47: band part
48: extension 50: sealing pad
52: curved portion 54: bulkhead portion
56: protrusion

Claims (7)

In the structure for sealing the rack housing of the battery module:
a housing 20 having a box-shaped structure in which an inner panel 22 and an outer panel 23 are combined on the frame 21;
a door member 30 for opening and closing the inner door 31 and the outer door 35 on at least one surface of the housing 20;
an auxiliary member 40 for supporting the first auxiliary material 41 and the second auxiliary material 42 on one surface and the other surface opposite to the outer door 35; and
A sealing pad 50 interposed in a contact area between the first auxiliary material 41 and the second auxiliary material 42;
The first auxiliary material 41 has an extruded structure having an internal partition wall 44 and a bead portion 45 on one side, and has a concave portion 46 on the other side and an extension portion 47 on the edge,
The second auxiliary material (42) has an extruded structure having an internal partition wall part (44) and a bead part (45) on one side, and includes an extension part (48) capable of close contact with the extension part (47). The sealing structure of the module rack housing. The method according to claim 1,
The housing (20) is a sealing structure of the battery module rack housing, characterized in that provided with a sealing strip (25) in a region in contact with the inner door (31). The method according to claim 1,
The door member 30 is a sealing structure of the battery module rack housing, characterized in that the outer door (35) is reinforced by using a C-shaped steel (32) coupled to the inner door (31). The method according to claim 1,
The door member 30 further includes a heat insulating sound absorbing material 33 between the inner door 31 and the outer door 35 , and a wrinkle portion 38 in a portion of the inner door 31 and the outer door 35 . ) The sealing structure of the battery module rack housing, characterized in that it further comprises. delete delete The method according to claim 1,
The sealing pad 50 has an extruded structure having a curved surface portion 52 on one side and a partition wall portion 54 inside, and a battery module rack, characterized in that it has a protrusion portion 56 engageable with the concave portion 46. The sealing structure of the housing.

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