RU198028U1 - BATTERY BASED ON ELECTROCHEMICAL CAPACITORS - Google Patents

Abstract

The utility model relates to the field of electrical engineering, concerns the features of the design of batteries from electrochemical capacitors. The batteries are intended to be used as a source (storage) of energy in high-power pulse modes, to stabilize the supply voltage in guaranteed power modules (IHP), in uninterruptible power supplies, to ensure the start of internal combustion engines (ICE), as well as to complete power units working for a long time in the buffer mode. The technical result of the proposed design solution is to increase the reliability of the battery from the ECC. To achieve the claimed technical result, a battery based on electrochemical capacitors (ECC) 1, comprising a housing 2 with a set of at least two electrochemical capacitors installed in it 1, which are fastened to the unit by means of a spring-loaded clamp 6 and are electrically connected to each other and to the output terminals of the battery 4 and 5 by metal jumpers between the EHC harrows, is supplemented by a spacer bar 9 installed between the side walls of the housing 2 and the EHC harrows. the pore strip 9 is made of durable insulating material with high properties and toughness, in particular, from PCB, fluoroplastic or polyamide. The battery cover 3 is provided with protrusions 10 in contact with the spacer strip 6 and pressing it against the capacitor block. 3 s.p. f-ly; 2 ill.

Description

The utility model relates to the field of electrical engineering, regarding the features of the design of batteries from electrochemical capacitors. The batteries are intended to be used as a source (storage) of energy in high-power pulse modes, to stabilize the supply voltage in guaranteed power modules (IHP), in uninterruptible power supplies, to ensure the start of internal combustion engines (ICE), as well as to complete power units working for a long time in a buffer mode.

Known battery of electrochemical capacitors (ECC) according to the patent for the invention of the Russian Federation No. 2260867, publ. 09/20/2005, containing the housing with drain outputs, as well as an ECC set (at least two) placed in the housing. The capacitors are electrically connected by jumpers to each other and to the battery current leads and combined into a single unit by means of an ECC preload device, which consists of a clamp, a spring and an interlayer plate between the clamp and the spring. The preload device provides a “preload” of capacitors. The spring compensates for the gaps between the capacitors and shells formed during the manufacturing process. Compression of the capacitors in the block is a very important condition for the battery to work, its capacity and energy depend on the compression force.

The capacitor block is installed in the housing with a gap, therefore, during the movement of the battery or during vibration of the housing, the possibility of displacement of the block in the housing is not ruled out. In such cases, the known preload device cannot protect the capacitor unit during battery operation from damage.

The closest technical solution to the proposed design of the battery EHC is a battery according to the patent of the Russian Federation for utility model No. 96444, publ. 07/27/2010. The battery consists of a unit interconnected structurally and electrically EHC. The unit is installed in the housing with a gap. This battery also uses a device for preloading a block of capacitors containing a clamp, support plates and springs.

The design drawback is the lack of protection against the possibility of block displacement in the housing, in particular, during vibration and shaking of the housing, which can lead to the separation of the terminal from the capacitor block. So, in the case of vibration of the case, the destruction of the weld of the terminal output terminal of the unit with the separation of the jumper from the terminal at the place of welding was revealed. Such design flaws significantly reduce the reliability of the battery.

The technical result of the proposed design solution is to increase the reliability of the battery from the ECC.

To achieve the claimed technical result, a battery based on electrochemical capacitors (ECC), comprising a housing with a set of at least two electrochemical capacitors installed in it, which are fastened to the unit using a spring-loaded clamp and are electrically connected to each other and to the battery output terminals by metal jumpers between EHK boron, supplemented by a spacer bar installed between the side walls of the housing and the EHK boron.

The spacer strip is made of a durable insulating material with high properties and impact strength, in particular of PCB, fluoroplastic or polyamide.

The battery cover is provided with protrusions in contact with the spacer bar and pressing it to the capacitor block.

The introduction of the spacer bar and support projections in the housing cover into the battery design makes it possible to stabilize the position of the block of capacitors in the case, eliminates block displacement during shaking and vibration of the case, which ensures the strength of the connection of the capacitor bourns with the battery output terminals and, therefore, increases the reliability of the battery.

The proposed design of the battery on the basis of the ECC is illustrated by drawings, which show:

FIG. 1 is a longitudinal section of a battery case,

FIG. 2 is a cross-sectional view of a battery case.

The battery based on the ECC 1 contains a housing 2 with a cover 3. The housing is made of plastic by hot-channel injection molding. The cover 3 of the case is also made of plastic, has two holes for installing the output terminals 4 and 5. Outside the case, in the lower part, there are tides for attaching the module to the object.

Bourne capacitors 1 in the block are electrically interconnected by metal jumpers made of copper. At the extreme capacitors 1, output terminals 4 and 5 are installed, made of copper and coated with nickel.

Structurally, the capacitors 1 are fastened in a single block by two metal shells (clamps) 6, a constant clamping of the capacitors is provided by the springs 7 through the side support plates 8.

To eliminate the separation of the output terminal from the capacitor block when moving the ECC block in the housing during operation, spacer bars 9 are installed between the ECC block and the side walls of the housing. The bars are made of durable insulating material with good electrostatic properties, compressive strength and impact strength. In particular, such strips can be made of PCB, fluoroplastic or polyamide.

To enhance the fixation of the position of the strap in the housing, the cover 3 of the housing is made with protrusions 10, which press the strap 6 against the block of capacitors.

Thus, the introduction of spacer bars and support protrusions in the cover to the battery design eliminates the displacement of the block inside the case in the event of shaking or vibration, which, in turn, eliminates the possible separation of the output terminal from the capacitor block, and thus increases the reliability of the battery.

Claims (4)

1. A battery based on electrochemical capacitors (EHCs), comprising a housing with a set of at least two electrochemical capacitors installed in it, which are fastened to the unit using a spring-loaded clamp and are electrically connected to each other and to the battery output terminals by metal jumpers between the EHC bourns, characterized in that it is supplemented by a spacer bar installed between the side walls of the casing and the EHC bourne. 2. The battery according to claim 1, characterized in that the spacer strip is made of durable insulating material with high electrostatic properties and impact strength. 3. The battery under item 1, characterized in that the spacer strip is made of textolite, fluoroplastic or polyamide. 4. The battery according to claim 1, characterized in that the housing cover is provided with protrusions in contact with the spacer strip and pressing it to the capacitor block.

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