CN204614677U - Open-ended super-capacitor device - Google Patents

Abstract

A kind of open-ended super-capacitor device, comprise a charge storage unit, wherein, charge storage unit comprises a shell, two electrode terminals and an electric power storage group, electric power storage is mounted on enclosure, and electric power storage group is formed primarily of multiple super capacitor series/parallel, and each electrode terminal is electrically connected with electric power storage group respectively, each electrode terminal forms the positive pole/negative pole of charge storage unit respectively, and electric power storage group is by each electrode terminal charge/discharge; Between shell and electric power storage group, be provided with separator, isolate series of strata molding for epoxy resin and obtain, protect electric power storage group accordingly.Multiple charge storage unit forms serial or parallel connection by connector, meets the different demands of distinct device for voltage, current strength, charge capacity, and when the power components of arbitrary charge storage unit is damaged, only need change and overhaul the charge storage unit damaged.

Description

Open-ended super-capacitor device

Technical field

The utility model relates to power storage feeding mechanism, furthermore, and espespecially a kind of open-ended super-capacitor device.

Background technology

Super capacitor be a kind of can the electrical power storage of charge/discharge repeatedly, super capacitor can charge/discharge thousands of time, make the useful life of super capacitor far above energy storage devices such as existing lead-acid battery, lithium batteries, and the charging rate of super capacitor is high, see power carriers such as being applied to automobile at present.

Different carriers is for power energy storage equipment, requirement in voltage, current strength, charge capacity etc., often different, the power energy storage equipment of single specification also cannot one size fits all, in order to meet the demand of various distinct device, the producer must produce the power energy storage equipment of multiple different size.

Super-capacitor device has the electricity accumulating unit that multiple super capacitor series/parallel is formed, if arbitrary super capacitor damages, by making, the charge/discharge capacity of super-capacitor device is abnormal, and now, the super-capacitor device more renewed, can meet the need for electricity of equipment.

After the super-capacitor device of charge/discharge capacity exception is changed, if the super capacitor do not damaged and damaged is discarded all in the lump, the waste of resource will be caused, if detect each super capacitor one by one, the super capacitor finding out damage is changed, though part can be filled utilize unspoiled super capacitor, but, the super-capacitor device that charge capacity is high often has dozens of even up to a hundred super capacitors, and these detect one by one, the operation changed will be very consuming time.

Summary of the invention

The utility model main purpose is to provide a kind of open-ended super-capacitor device, and described super-capacitor device can be applicable to the electrical power storage as carrier, and can further according to need for electricity in conjunction with super-capacitor devices more than two or two.

The utility model is a kind of open-ended super-capacitor device, comprise a charge storage unit, wherein, charge storage unit comprises a shell, two electrode terminals and an electric power storage group, electric power storage is mounted on enclosure, and electric power storage group is formed primarily of multiple super capacitor series/parallel, and each electrode terminal is electrically connected with electric power storage group respectively, each electrode terminal forms the positive pole/negative pole of charge storage unit respectively, and electric power storage group is by each electrode terminal charge/discharge; Between shell and electric power storage group, be provided with separator, isolate series of strata molding for epoxy resin and obtain, protect electric power storage group accordingly.

Foregoing open-ended super-capacitor device, comprises two charge storage unit and two connectors, and wherein, the rhabodoid that connector system electric conducting material is formed, each connector two ends connect with each electrode terminal of each charge storage unit respectively, are electrically connected according to making each charge storage unit.

Foregoing open-ended super-capacitor device, wherein, lean on mutually before and after each charge storage unit, the front and rear edge of electrode terminal caves in an embedding hole respectively, the embedding hole of the electrode terminal of a charge storage unit is inserted in one end of each connector, the other end inserts the embedding hole of the electrode terminal of another charge storage unit, is electrically connected by each connector according to making each charge storage unit.

Foregoing open-ended super-capacitor device, comprise two clamping pieces further, wherein, clamping piece establishes an intermediate plate to form primarily of sheet in two ends respectively, each clamping piece is respectively by being located at the apical margin of each charge storage unit, and an intermediate plate of each clamping piece leans on mutually with the leading edge of a charge storage unit, and another intermediate plate leans on mutually with the trailing edge of another charge storage unit, and each intermediate plate mat one bolt and each charge storage unit interlocking respectively, relatively clamp each charge storage unit according to making each clamping piece.

Foregoing open-ended super-capacitor device, wherein, connector establishes a dividing plate in stage casing, and dividing plate both sides recline with the appearance of adjacent two storage batterys respectively.

Foregoing open-ended super-capacitor device, wherein, dividing plate system insulating material is made.

Foregoing open-ended super-capacitor device, wherein, each charge storage unit changes up and down mutually, electrode terminal apical margin caves in a jack, electrode terminal root edge caves in a shrinkage pool, charge storage unit inside forms two channels, each channel one end is communicated with the shrinkage pool of each electrode terminal, each passage other end is communicated with the outside of charge storage unit respectively at charge storage unit bottom, the jack of the electrode terminal of a charge storage unit is inserted in one end of each connector, the other end passes through the channel of another charge storage unit and the shrinkage pool of electrode insertion terminal, is electrically connected by each connector according to making each charge storage unit.

Foregoing open-ended super-capacitor device, comprise four braces further, wherein, two braces are by being located at the leading edge of each charge storage unit, two braces in addition lean on mutually with the trailing edge of each charge storage unit, and each brace mat two bolt and each charge storage unit interlocking respectively, according to making each brace respectively in conjunction with each charge storage unit.

Multiple charge storage unit forms serial or parallel connection by connector, multiple charge storage unit serial or parallel connections of single specification can meet the different demands of distinct device for voltage, current strength, charge capacity, and during the damage of the super capacitor of arbitrary charge storage unit, only need change and overhaul the charge storage unit damaged.

Accompanying drawing explanation

Fig. 1 is the stereogram of the utility model embodiment one.

Fig. 2 is the stereogram of the utility model embodiment two.

Fig. 3 is the three-dimensional exploded view of the utility model embodiment two.

Fig. 4 is the side sectional view of the electrode terminal of the utility model embodiment two.

Fig. 5 is the 5-5 cutaway view of Fig. 2, and display connector connects the state of the electrode terminal of two charge storage unit.

Fig. 6 is the perspective exploded view of the utility model embodiment three.

Fig. 7 is the stereogram of the utility model embodiment four.

Fig. 8 is the three-dimensional exploded view of the utility model embodiment four.

Fig. 9 is the 9-9 cutaway view of Fig. 7, and display connector connects the state of the electrode terminal of two charge storage unit.

Figure 10 is the perspective exploded view of the utility model embodiment five.

Description of reference numerals: 1-charge storage unit; 11-shell; 12-electrode terminal; 121-jack; The embedding hole of 122-; 123-shrinkage pool; 13-passage; 2-connector; 21-dividing plate; 3-clamping piece; Sheet in 31-; 32-intermediate plate; 4-bolt; 5-brace.

Embodiment

As shown in Figure 1, the embodiment one of the open-ended super-capacitor device of the utility model comprises a charge storage unit (1), wherein, charge storage unit (1) comprises a shell (11), two electrode terminals (12) and an electric power storage group (not shown), wherein, it is inner that electric power storage is mounted on shell (11), and electric power storage group is formed primarily of multiple super capacitor (not shown) series/parallel, each electrode terminal (12) is electrically connected with electric power storage group respectively, according to making electric power storage group by each electrode terminal (12) charge/discharge, between shell (11) and electric power storage group, be provided with separator (not shown), described isolation series of strata molding for epoxy resin and obtaining, shock-absorbing is provided to electric power storage group by described separator, heat insulation, waterproof and dust-proof, protect electric power storage group accordingly.

Each electrode terminal (12) forms the positive pole/negative pole of charge storage unit (1) respectively, each electrode terminal (12) is located at the contiguous two ends place of shell (11) respectively, the top of each electrode terminal (12) and front/rear edge respectively with the ft connection of shell (11), electrode terminal (12) apical margin caves in a jack (121), and the front and rear edge of electrode terminal (12) caves in an embedding hole (122) respectively.

Embodiment two is changed by embodiment one and obtains, the formation that embodiment two is identical with embodiment one, pardons not repeat specification, as shown in Figures 2 to 4, embodiment two comprises two charge storage unit (1) and two connectors (2), wherein, connector (2) is the rhabodoid that electric conducting material is formed, lean on mutually before and after each charge storage unit (1), each connector (2) two ends connect with each electrode terminal (12) of each charge storage unit (1) respectively, be electrically connected according to making each charge storage unit (1), wherein, when the two ends of a connection piece (2) connect with the positive pole of each charge storage unit (1) respectively, when the two ends of another connector (2) connect with the negative pole of each charge storage unit (1) respectively, each charge storage unit (1) is formed in parallel, when the two ends of each connector (2) connect with the positive pole of a charge storage unit (1) and the negative pole of another charge storage unit (1) respectively, then each charge storage unit (1) forms series connection.

As shown in Figure 5, the embedding hole (122) of the electrode terminal (12) of a charge storage unit (1) is inserted in one end of each connector (2), the other end inserts the embedding hole (122) of the electrode terminal (12) of another charge storage unit (1), is electrically connected formation super-capacitor device according to making each charge storage unit (1) by each connector (2).Moreover, connector (2) optionally establishes a dividing plate (21) in stage casing, dividing plate (21) both sides recline with the appearance of adjacent two charge storage unit (1) respectively, and dividing plate (21) selection is made for better with insulating material.

Embodiment three is changed by embodiment two and obtain, as shown in Figure 6, embodiment three comprises two charge storage unit (1), two connector (not shown) and two clamping pieces (3), wherein, the formation that embodiment three is identical with embodiment two, pardon not repeat specification, clamping piece (3) establishes an intermediate plate (32) to form primarily of sheet (31) in two ends respectively, each clamping piece (3) is respectively by being located at the apical margin of each charge storage unit (1), one intermediate plate (32) of each clamping piece (3) leans on mutually with the leading edge of a charge storage unit (1), another intermediate plate (32) leans on mutually with the trailing edge of another charge storage unit (1), and each intermediate plate (32) mat one bolt (4) and each charge storage unit (1) interlocking respectively, accordingly, each charge storage unit (1) that each clamping piece (3) leans on before and after relatively clamping mutually, improve the steadiness that each charge storage unit (1) combines.

Embodiment four is changed by embodiment two and obtains, the formation that embodiment four is identical with embodiment two, pardon not repeat specification, as shown in Figure 7 to 9, embodiment four comprises two charge storage unit (1) and two connectors (2), wherein, charge storage unit (1) comprises a shell (11), two electrode terminals (12) and an electricity accumulating unit (not shown), electrode terminal (12) apical margin caves in a jack (121), electrode terminal (12) root edge caves in a shrinkage pool (123), charge storage unit (1) inside forms two channels (13), each channel (13) one end is communicated with the shrinkage pool (123) of each electrode terminal (12), each passage (13) other end is communicated with the outside of charge storage unit (1) respectively at charge storage unit (1) bottom.

The rhabodoid that connector (2) is formed for electric conducting material, each charge storage unit (1) changes up and down mutually, each connector (2) two ends connect with each electrode terminal (12) of each charge storage unit (1) respectively, be electrically connected according to making each charge storage unit (1), wherein, when the two ends of a connection piece (2) connect with the positive pole of each charge storage unit (1) respectively, when the two ends of another connector (2) connect with the negative pole of each charge storage unit (1) respectively, each charge storage unit (1) is formed in parallel, when the two ends of each connector (2) connect with the positive pole of a charge storage unit (1) and the negative pole of another charge storage unit (1) respectively, then each charge storage unit (1) forms series connection.

As shown in Figure 8, the jack (121) of the electrode terminal (12) of a charge storage unit (1) is inserted in one end of each connector (2), the other end passes through the channel (13) of another charge storage unit (1) and the shrinkage pool (123) of electrode insertion terminal (12), is electrically connected formation super-capacitor device according to making each charge storage unit (1) by each connector (2).

Embodiment five is changed by embodiment four and obtains, as shown in Figure 10, embodiment five comprises two charge storage unit (1), two connector (not shown) and four braces (5), wherein, the formation that embodiment five is identical with embodiment four, pardon not repeat specification, two braces (5) are by being located at the leading edge of each charge storage unit (1), two braces (5) in addition lean on mutually with the trailing edge of each charge storage unit (1), and each brace (5) is respectively by two bolts (4) and each charge storage unit (1) interlocking, accordingly, each brace (5) combines each charge storage unit (1) changed mutually up and down respectively, improve the steadiness that each charge storage unit (1) combines.

The quantity that previous embodiment two to five all optionally can change charge storage unit (1) is more than two or two, and coordinate the quantity of the quantity respective change connector (2) of charge storage unit (1), each charge storage unit (1) is made to be connected to form serial or parallel connection by each connector (2), the producer only needs the charge storage unit (1) of producing single specification, and single charge storage unit (1) can separately as the supply of electric power source of equipment, also can need according to the electricity consumption of equipment, select two or more charge storage unit (1) serial or parallel connection, as the supply of electric power source of equipment, meet distinct device for voltage, current strength, the different demands of charge capacity.

It is worth mentioning that, when the super capacitor of arbitrary charge storage unit (1) damages, only need change this charge storage unit (1) of damage, other charge storage unit (1) forming super-capacitor device does not need to change, improve the utilance of resource, and only the single charge storage unit (1) damaged is carried out to detection, the replacing of super capacitor, without the need to the activity duration of at substantial.

More than illustrate the utility model just illustrative; and it is nonrestrictive; those of ordinary skill in the art understand; when not departing from the spirit and scope that claims limit; many amendments can be made; change, or equivalence, but all will fall in protection range of the present utility model.

Claims (8)

1. an open-ended super-capacitor device, comprise a charge storage unit, it is characterized in that, charge storage unit comprises a shell, two electrode terminals and an electric power storage group, electric power storage is mounted on enclosure, and electric power storage group is made up of multiple super capacitor series/parallel, and each electrode terminal is electrically connected with electric power storage group respectively, each electrode terminal forms the positive pole/negative pole of charge storage unit respectively, and electric power storage group is by each electrode terminal charge/discharge; Between shell and electric power storage group, be provided with separator, separator is that molding for epoxy resin obtains, and protects electric power storage group accordingly.

2. open-ended super-capacitor device as claimed in claim 1, is characterized in that, comprises two charge storage unit and two connectors, wherein, connector is the rhabodoid that electric conducting material is formed, and each connector two ends connect with each electrode terminal of each charge storage unit respectively, are electrically connected according to making each charge storage unit.

3. open-ended super-capacitor device as claimed in claim 2, it is characterized in that, lean on mutually before and after each charge storage unit, the front and rear edge of electrode terminal caves in an embedding hole respectively, the embedding hole of the electrode terminal of a charge storage unit is inserted in one end of each connector, the other end inserts the embedding hole of the electrode terminal of another charge storage unit, is electrically connected by each connector according to making each charge storage unit.

4. open-ended super-capacitor device as claimed in claim 3, it is characterized in that, comprise two clamping pieces further, wherein, clamping piece establishes an intermediate plate to form primarily of sheet in two ends respectively, and each clamping piece is respectively by being located at the apical margin of each charge storage unit, one intermediate plate of each clamping piece leans on mutually with the leading edge of a charge storage unit, another intermediate plate leans on mutually with the trailing edge of another charge storage unit, and each intermediate plate is respectively by a bolt and each charge storage unit interlocking, relatively clamps each charge storage unit according to making each clamping piece.

5. open-ended super-capacitor device as claimed in claim 3, is characterized in that, connector establishes a dividing plate in stage casing, and dividing plate both sides recline with the appearance of adjacent two storage batterys respectively.

6. open-ended super-capacitor device as claimed in claim 5, it is characterized in that, dividing plate is made up of insulating material.

7. open-ended super-capacitor device as claimed in claim 2, it is characterized in that, each charge storage unit changes up and down mutually, electrode terminal apical margin caves in a jack, electrode terminal root edge caves in a shrinkage pool, charge storage unit inside forms two channels, each channel one end is communicated with the shrinkage pool of each electrode terminal, each passage other end is communicated with the outside of charge storage unit respectively at charge storage unit bottom, the jack of the electrode terminal of a charge storage unit is inserted in one end of each connector, the other end passes through the channel of another charge storage unit and the shrinkage pool of electrode insertion terminal, be electrically connected by each connector according to making each charge storage unit.

8. open-ended super-capacitor device as claimed in claim 7, it is characterized in that, comprise four braces further, wherein, two braces are by being located at the leading edge of each charge storage unit, two braces in addition lean on mutually with the trailing edge of each charge storage unit, and each brace is respectively by two bolts and each charge storage unit interlocking, according to making each brace respectively in conjunction with each charge storage unit.