RU202414U1 - Li-ion battery module - Google Patents

Abstract

The technical solution relates to the field of electrical engineering, namely to storage batteries assembled from standard storage cells installed and connected to each other without the use of welding, and can be used to create lithium-ion storage battery modules. The lithium-ion battery module contains lithium-ion cells installed in the holes of the electrical insulating bases, made in the form of plates with shaped holes, while the lithium-ion cells are installed with positive leads in the holes made in the corresponding sections of the positive collector plate, and negative leads in holes made in the corresponding sections of the negative collector plate, a positive collector bus fixed on the corresponding section of one of the transverse edges of the positive collector plate, and a negative collector bus fixed on the corresponding section of one of the transverse edges of the negative collector plate, while the lithium-ion battery module the battery is equipped with lithium-ion cell clamps, made in the form of a U-shaped profile with semicircular cutouts made on the outer surfaces of the longitudinal edges of the U-shaped profile, and with a perforated and holes made in the surface of the U-shaped profile. The technical result consists in increasing operational reliability by preventing displacements and deviations of lithium-ion cells during operation of the lithium-ion storage battery module. 4 ill.

Description

The proposed technical solution relates to the field of electrical engineering, namely to storage batteries assembled from standard storage cells installed and connected to each other without the use of welding, and can be used to create lithium-ion storage batteries.

Similar technical solutions are known, see, for example, the description of the invention RU 2667905 "Accumulator battery", which contains the following set of essential features: consisting of batteries, each of which has a disposable built-in current protection element that breaks its internal electrical circuit when the pressure inside the accumulator rises , consists of several pairs of batteries connected in series, electrically connected in a parallel-series circuit, the batteries have a cylindrical body and are placed in one or more battery blocks electrically connected in parallel or in series, each of which has vertically and parallel to each other installed on a common base plate two holder plates with through cylindrical holes, between which batteries are installed and fixed in the holes, while on one of the outer sides of the holding plates there are current-collecting buses connecting the batteries In parallel and in parallel-in series, on the other outer side there are conductive jumpers connecting the batteries in series, the batteries are installed in the holes with a guaranteed gap.

A similar technical solution is also known, see the description of the invention to the patent RU No. 2 732 070 "Lithium-ion storage battery module", and which contains the following set of features, blocks of lithium-ion batteries, connected in parallel by their positive leads to the corresponding positive current-collecting collecting buses and their negative terminals to the corresponding negative current-collecting collecting buses, characterized in that the blocks of lithium-ion batteries are vertically mounted relative to each other and connected by the outer surfaces of their current-collecting positive collecting buses to one of the surfaces of the power conductive positive bus and the outer surfaces of their current-collecting negative collecting buses to one of the surfaces of the power electrically conductive negative bus, while the blocks of lithium-ion batteries contain lithium-ion cells installed in the holes of the electrical insulating bases. The insulating base is made in the form of a plate with shaped holes. The electrical insulating base contains a hole for fixing the collector bar. The lithium-ion battery blocks are interconnected with metal pins.

A similar technical solution is also known, see the description of the invention US No. 10529960 B2, publ. 2017, which is selected as the closest analogue, prototype, and which contains the following set of essential features:

- a positive current-collecting plate of rectangular shape;

- negative collector plate of rectangular shape, located parallel to the positive current collector plate of rectangular shape;

- "N" -lithium-ion cells, installed with one of their positive leads in the holes made in the corresponding sections of the positive current-collecting plate of rectangular shape, and their other negative leads in the holes made in the corresponding sections of the negative current-collecting plate of rectangular shape, connected by the corresponding sections of its the inner surface, by means of electrically insulated rods, with corresponding sections of the inner surface of the positive current collector plate of rectangular shape.

In all known similar technical solutions during operation, displacements or deviations of lithium-ion cells are possible, which leads to premature failure of lithium-ion cells.

The technical result, which cannot be achieved by any of the similar technical solutions described above, is to increase operational reliability by preventing displacements and deviations of lithium-ion cells during operation of the lithium-ion storage battery module.

The technical result indicated above is achieved in that the lithium-ion battery module contains lithium-ion cells installed in the holes of the electrical insulating bases, made in the form of plates with shaped holes, while the lithium-ion cells are installed with positive leads in the holes made on the corresponding sections of the positive collector plate, and negative terminals in the holes made in the corresponding sections of the negative collector plate, the positive current collector bus, fixed on the corresponding section of one of the transverse edges of the positive collector plate, and the negative collector bus, fixed on the corresponding section of one of the transverse edges negative collector plate, while the lithium-ion battery module is equipped with lithium-ion cell clamps, made in the form of a "P" -shaped section with semicircular cutouts made on the outer surfaces of the single edges of the profile "P" -shaped section, and with perforated holes made in the surface of the profile "P" -shaped section.

The introduction into the design of the lithium-ion battery module of lithium-ion cell clamps made in the form of a profile "P" -shaped section, their location, as indicated above, allows you to install the corresponding semicircular cutouts made on the outer surfaces of the longitudinal edges of the "P" -shaped section on the corresponding sections of the external surfaces of lithium-ion cells, and fix the position of lithium-ion cells from any unforeseen situations associated, during long-term operation, with their displacement and deviation, and leading to premature exits of lithium-ion cells from and thus improve the operational reliability of the lithium-ion battery module. What is the achievement of the above technical result.

The proposed lithium-ion battery module is illustrated by the following description of an example of a structure and drawings, where figure 1 shows the structure of a lithium-ion battery module, figure 2 shows an example of an upper lithium-ion cell lock and figure 3 shows an example of a lower lock lithium-ion cells, Fig. 4 shows an example of an assembly diagram of the structure of a lithium-ion storage battery module.

The offered lithium-ion battery module contains:

- positive current-collecting plate-1;

- negative current-collecting plate-2, located parallel to the positive current-collecting plate-1;

- lithium-ion cells-3, installed with one of their positive leads in the holes made in the corresponding sections of the positive collector plate-1, and their other leads in the holes made in the corresponding sections of the negative collector plate-2, connected by the corresponding sections of their inner surface by electrical insulating rods not indicated in the drawings, with corresponding sections of the inner surface of the positive current collector plate-1;

- positive current-collecting bus-4, fixed on the corresponding section of one of the transverse edges of the positive current-collecting plate-1;

- negative current-collecting bus-5, fixed on the corresponding section of one of the transverse edges of the negative current-collecting plate-2;

- the upper retainer-6 of lithium-ion cells, made in the form of a profile "P" -shaped section with semicircular cutouts-7.8, made on the outer surfaces of the longitudinal edges of the "P" -shaped section, and with perforated holes-9, made on the corresponding sections of the upper surface of the profile "P" -shaped section, and secured by the corresponding sections of their bent edges, by means of bolted connections-10,11,12,13, in the corresponding sections of the inner, upper surface of the insulating plates;

- lower retainer-14 of lithium-ion cells, made in the form of a profile "P" -shaped section with semicircular cutouts-15,16, made on the outer surfaces of the longitudinal edges of the "P" -shaped section, and with perforated holes-17, made on the corresponding sections of the upper surface of the profile "P" -shaped section, and secured by the corresponding sections of their bent edges, by means of bolted connections-18,19,20, ..., on the corresponding inner, lower surface of the insulating plates;

- bases-20, 21 in the form of rectangular insulating plates with holes.

The manufacturing technology of the lithium-ion battery module can be performed as follows.

Positive-1 and negative-2 rectangular collector plates are made with corresponding holes made on the corresponding surfaces of positive-1 and negative-2 rectangular collector plates.

A positive current-collecting bus-4 is made, which, using bolted connections, is fixed on one of the transverse edges of the positive current-collecting plate-1 of a rectangular shape.

A negative current-collecting bus-5 is made, which, using bolted connections, is fixed on one of the transverse edges of a rectangular negative current-collecting plate-2.

The bases-21.22 are made in the form of rectangular insulating plates with holes.

In the holes made on the corresponding surfaces of the positive-1 and negative-2 collector plates of rectangular shape, and in the holes of the electrical insulating bases-21, 22, made in the form of plates with shaped holes, lithium-ion cells-3 are installed, the positive and negative leads of which are connected to the corresponding positive and negative collector plates-1,2 of rectangular shape.

A pre-made, using an injection mold, the upper plastic retainer-6, in the form of a U-shaped section profile, is installed with the corresponding sections of their bent edges between the inner, upper surfaces of the positive-1 and negative-2 current-collecting plates of a rectangular shape, placing semicircular cutouts-7 , 8 over the corresponding external surfaces of the lithium-ion cells-3, and fix the corresponding surfaces of the bent edges of the U-shaped profile on the corresponding internal, upper surfaces of the positive-1 and negative-2 rectangular collector plates using bolted joints-10,11, 12.13.

A pre-made, using an injection mold, the lower plastic retainer-14 in the form of a U-shaped section profile is installed with the corresponding sections of its bent edges between the inner, lower surfaces of the positive-1 and negative-2 current collector plates of a rectangular shape, with semicircular cutouts-15.16 over the corresponding external surfaces of the lithium-ion cells-3, and fix the corresponding surfaces of the bent edges of the U-shaped section on the corresponding internal, lower surfaces of the rectangular insulating plates using bolted connections-18,19, ....

To obtain high rigidity and strength of the lithium-ion battery, electrical insulating rods are fixed between the positive rectangular collector plate-1 and the negative rectangular collector plate-2, placing them between the corresponding external surfaces of the lithium-ion cells-3 and thus getting ready for operating the lithium-ion battery module.

Claims (1)

A lithium-ion battery module containing lithium-ion cells installed in the holes of the electrical insulating bases made in the form of plates with shaped holes, while the lithium-ion cells are installed with positive leads in the holes made in the corresponding sections of the positive collector plate and negative leads in the holes made in the corresponding sections of the negative collector plate, the positive collector bus, fixed on the corresponding section of one of the transverse edges of the positive collector plate, and the negative collector bus, fixed on the corresponding section of one of the transverse edges of the negative collector plate, characterized in that the lithium module -ion storage battery is equipped with lithium-ion cell clamps made in the form of a U-shaped section with semicircular cutouts made on the outer surfaces of the longitudinal edges of the U-shaped section, and with perforated holes made in the surface of the U-shaped section.

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