TW201218481A - Formed by a plurality of superposed battery modules - Google Patents

Abstract

An aggregative battery with a radiating structure formed by a plurality of superposed battery modules, between two battery modules is provided heat radiation members and separation sleeves, and screws are passed through the above-mentioned components, so as to form the aggregative battery. The heat radiation members are directly connected to the battery modules, so as to conduct heat to radiating surfaces and to lower temperature by contacting fins of the radiating surfaces with air. Between the two battery modules is also formed a spatial distance, which can not only avoid causing heat accumulation problem, but also can form a hollow radiating passage, so as to enable cold air outside the aggregative battery to exchange with hot air in the radiating passage successfully, thus achieving the objective of temperature dropping.

Description

201218481 VI. Description of the Invention: [Technical Field] The present invention relates to a composite battery having a heat dissipation structure by stacking a plurality of battery modules, and is mainly directed to an improved design of an external heat dissipation structure of a secondary assembled battery. [Prior Art] Based on the actual demand for high-output batteries, the battery industry's practical technology is to make a large number of individual batteries connected in series or in parallel to form an assembled battery with a high output. In the process of charging and discharging, the individual batteries inside the assembled battery will release heat and cause the temperature to rise. Just saying that the battery temperature rise will cause the battery to fail to operate normally and safely. Please refer to Figure 1 for the collection battery 1 of the publication US 2007/037051 ("The structure is mainly based on the respective batteries 11 Interposed therebetween - the spacer block is formed with a plurality of concave and convex structures 13 on one side surface of the spacer block 12, = each of the early single battery 11 and the _ block 12, which is provided with a plurality of air-dissipating air passages 14' The temperature of the battery 10. The fish ^ sincerity is 'touching the 卩 电池 电池 — — 隔离 隔离 隔离 隔离 隔离 隔离 隔离 隔离 隔离 隔离 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其 其After that, the spacer block 12 is formed with a concave surface that is covered with one side of the battery U, and cannot be directly exposed to the outside. The battery slit is difficult to escape. 201218481 The second assembly battery 10 is assembled. The air flow passages 14 formed by the uneven structure 13 of the spacer blocks 12 are not in communication with each other, and the opening of the air flow passage 14 at the outside is relatively narrow. The air is not easily circulated, and the battery heat is easily accumulated and difficult. Dissipation. [Summary]

The main purpose of the present invention is to provide a battery assembly with a heat dissipation structure by stacking a plurality of battery modules. The two battery modules of the assembled battery are separated by a space distance, and two battery modules can be avoided on the one hand. The problem of heat accumulation caused by direct contact with the group 'on the other hand, a hollow heat dissipation channel can be formed between the two battery modules, so that the cold air outside the assembled battery and the hot air in the heat dissipation channel can be smoothly exchanged and cooled. Another object of the present invention is to provide a collection battery having a heat dissipation structure by stacking a plurality of battery modules. The assembly battery is disposed on the left side and the right side of each of the battery modules. Avoiding the accumulation of heat in the assembled battery at the location, it may be helpful in the spatial arrangement of the assembled battery when it is used, for example, the diffuser may be particularly oriented toward the line. Regarding the achievement of the above objectives by the county, the technology, means and other functions of the scales are more consistent with the implementation of the seals. Hundreds of 'slip fits' refer to the first. u 3 circle shown in the embodiment of the present invention _ reduce a Wei model _ Lai Qiansi Cai's collector battery, the collection battery is mainly in two battery modules, = between 5 201218481 set of four heat sinks 30 and four spacer sleeves 4〇, and then through the four screws 50 through the combination of the above components, wherein: the battery module 2 (U, 202, is a plurality of individual batteries 21, through the metal connection piece 211 The two sides of the frame 22 are defined as an inner surface 24 and an outer surface 25, and the two corresponding sides of the frame 22 are defined as - The left side surface 26 and the right side surface 27' are formed on the inner surface 24 of the frame 22 from the inner surface 24 of the frame 22. The four end corners of the frame 22 are each formed with a perforation 28 structure; The main surface of the flat plate 31 is provided with a locking hole 32. The two corresponding end faces of the flat plate 31 are defined as a channel surface 33 and a contact surface 34. The contact surface 34 is defined by a metal plate. a heat dissipating fin surface 35 extending from one side thereof, the heat dissipating fin surface 35 The outer surface is alternately arranged with a plurality of fins 351; the heat dissipating member 30 is in contact with a side surface of the individual battery exposed by the inner surface 24 of the battery modules 2〇1, 202, and the heat dissipating fin surface 35 is Corresponding to the left side surface 26 or the right side surface 27 of the battery module 2〇1, 2〇2·, and the keyhole 32 of the heat sink 3〇 is disposed corresponding to the through hole 28 of the frame 22, so that each_ The battery module 201 202 is in contact with two heat dissipating members; the spacer sleeve 40 ′ is disposed on the locking hole of each of the heat dissipating members 3; the screw 50 is sequentially from the battery module The perforation 28 of the group 3〇1 is the locking hole 32 of the heat sink 30 of the 201218481 heat sink 30, the perforation 28 of the spacer sleeve 4〇 and the other battery module 2〇2 are penetrated and locked by the nut 51, thereby being located at the second The two corresponding channel faces 33 between the battery modules and 201 and 202 are separated by a spatial distance to form a hollow heat dissipation channel 60. The above is the structure of the main components of the embodiment and the configuration description thereof. As for the financial formula and its efficacy of the present invention, please refer to the figures 2, 4, and 5, the assembled battery 7〇 The heat release is from each single

The surface of the single battery f is the same as that of the surface of the 30-year-old 掮 掮 ^ each single Wei pool 21 - the side contact, the heat of the individual battery 21 is driven over the flat plate 31 and is transferred to the fine surface 35, and then through The Korean 351 of hot milk is cooled by contact with air. It should be noted that, referring to FIG. 5, the two battery modules 2G1 and 202 of the assembled battery 7 are separated by two distances between the two battery modules 2G1 and 202. It can avoid the problem that the two battery modules 2 (H, 202 are in direct contact and cause heat accumulation), on the other hand, a hollow heat dissipation channel 60 can be formed between the two battery modules A〇1 2〇2, so that the collection The hot air in the cold air channel 4 () of the battery 70 is cooled and cooled. μ See the third, fourth, and figure The fins 351 'sets t are located in the left side of each of the battery modules, and the left-handed charms are 27, which can be used to locate the heat of the 7G. It is difficult to dissipate, on the one hand, it can contribute to the work arrangement of the assembled battery. For example, the scattered film can be specially directed toward the air circulation 201218481. It is worthwhile to mention that the integrated battery design of the present invention is through the screw. The two battery modules are stacked, as shown in Figure 6, which is to increase the other two battery modules 203, 204. The expansion of the original two battery modules 2, 2, 2 side, in this case, can be assembled through the growing screw 5〇a, in other words, through the structural design of the present invention, can be easily carried out BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a conventional assembled battery of the publication No. US2007/037051. Fig. 2 is an exploded perspective view showing the structure of the present invention. Fig. 3 is a perspective view showing the structure of the present invention. Figure 4 is a cross-sectional view of the cross-sectional view taken along line AA of Figure 3. Figure 5 is a schematic side view of the present invention. Figure 6 is a schematic view showing the assembled state of two battery modules of the present invention. Description] 10 collection electricity, pool 11 individual battery 12 isolation block 13 concave and convex structure 14 air flow channel 201 202 203 204 battery module 21 individual battery 211 metal connection piece 22 frame 23 output pole 24 inner surface 201218481 [schematic description] 1 is a schematic view showing the structure of a conventional assembled battery of the publication US 2007/037051. Fig. 2 is an exploded perspective view of the structure of the present invention. Fig. 3 is a perspective view of the structure of the present invention. Fig. 4 is a view of Fig. 3 Cutaway section Fig. 5 is a schematic side view of the present invention. Fig. 6 is a schematic view showing the assembled state of two battery modules according to the present invention. [Main component symbol description] 10 collective battery 12 isolation block 14 air flow channel 11 single battery 13 concave-convex structure 201 202 203 204 battery module 21 individual battery 211 metal connecting piece 22 frame 23 output pole 24 inner surface 25 outer surface 26 left side surface 27 right side surface 28 perforation 30 heat sink 31 flat plate 32 locking hole 33 channel surface 34 contact surface 35 Heat dissipation II surface 351 fin 40 spacer sleeve 50 50a screw 51 nut 60 heat dissipation channel

Claims (1)

201218481 VII. Scope of application for patents: 1. - A plurality of batteries 敝 设 设 构成 构成 # # # # # # # # # # # # # # # # # # # 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少 至少a rectangular frame is formed. The two corresponding faces of the frame are defined as an inner face and an outer face. The two corresponding sides of the frame are defined as a left side face and a right side face. One side of each individual battery is attached to the frame. The inner surface of the frame is exposed, and the four end corners of the frame are each formed with a perforated structure; at least four heat dissipating members are made of a metal body, and the two pairs of the flat plate are respectively provided with "keyholes", and the flat plate The two corresponding end faces are defined as - channels: X: J faces 'the side of the contact face is extended with a heat sink fin surface, and the plurality of fins are arranged at intervals; the heat sink is connected with the contact face The single battery is in contact with one side, and the heat-dissipating locking hole is disposed corresponding to the side of the frame, and the heat dissipating member is provided with two such positions, so that each of the battery modules contacts the locking hole of each of the heat dissipating members ; the keyhole, the, =^ Wei Perforation group, the heat dissipating member located at the two electrical two: a :: = disposed through the lock, whereby the heat dissipating channel into a hollow channel to engage a surface of the spatial distance, and shape