CN202905813U - Novel integrated energy storage body - Google Patents

Abstract

The utility model discloses a novel integrated energy storage body which comprises a main body of the integrated energy storage body, an upper cover, a lower cover, an insulator and a protecting plate, wherein the main body of the integrated energy storage body comprises plural cell groups which are mutually connected in series; the upper cover is provided with a groove for fixing the main body of the integrated energy storage body, and the lower cover is provided with the groove; the main body of the integrated energy storage body is embedded in the groove, and the upper cover and the lower cover are fastened together through a fastening piece; the protecting plate is arranged on the side face of the main body of the integrated energy storage body; the insulator is arranged between any two adjacent independent cells, between the main body of the integrated energy storage body and the upper cover as well as between the main body of the integrated energy storage body and the lower cover; two ends of the various cell groups are connected with the protecting plate through lead wires; and a positive output terminal and a negative output terminal are fixedly connected on the protecting plate. The novel integrated energy storage body disclosed by the utility model can limit motions of the energy storage body at various directions in a multi-dimensional manner, and is firm to fix and quake-proof; and the novel integrated energy storage body has a function of heating the energy storage body, so that the energy storage body can normally work at low temperature, and the temperature of the energy storage body can be monitored in real time.

Description

A kind of novel integrated energy storage body

[technical field]

The utility model relates to the storage battery field, particularly a kind of novel integrated energy storage body.

[background technology]

Development along with the communication technology, give that the unification of three nets of the communications industry and content service are integrated to have brought new opportunity, the consumer craves for network " ubiquitous ", so that communication equipment needs the uninterruptible power platform power, to promote the high availability of network, make network always online.

The power platform power supply mainly includes the power supply system for communications, battery system and ac uninterrupted power supply system etc., each system of power platform will have related very closely, each Security of the system, reliability, compatibility, dilatancy, maintainability will determine the availability of power platform, therefore can say, no matter be from user's actual needs, or advance the large technical background of the integration of three networks from China, all in the urgent need to a kind of storage battery that can access fast power platform.

At present, most of large-capacity battery all is to combine by connection in series-parallel monomer battery core, and that the mode of combination mostly is the monomer battery core is directly stacking or fix with cluster, make up simply extensive, exist fix not firm, not attractive in appearance, not antidetonation, be difficult to the problem such as turnover.And existing large-capacity battery also exists can't be in the problem of low temperature environment normal operation.

[summary of the invention]

The technical problems to be solved in the utility model, be to provide a kind of novel integrated energy storage body, it is rationally distributed, adopts vertical equipping, the movement of multidimensional restriction storage bodies on all directions, fixation, attractive in appearance, antidetonation and be convenient to turnover, also have the function of heating storage bodies, storage bodies is worked, simultaneously under low temperature condition, also be provided with temperature sensor, the temperature of Real Time Monitoring storage bodies.

The utility model is achieved in that

A kind of novel integrated energy storage body, comprise integrated energy storage body body, described integrated energy storage body body comprises the battery core group of a plurality of mutual series connection, described battery core group is formed in parallel by at least two monomer battery cores, the polar end face of each described monomer battery core is closely arranged up and with array way, and described polar end face is the end face that is provided with anodal and negative pole; Also comprise loam cake, lower cover, insulator and baffle; Be covered with the groove for fixing described integrated energy storage body body on described, be covered with described groove under described, described integrated energy storage body body embeds described groove and by securing member described loam cake and lower cover is tightened together; Described baffle is located at the side of described integrated energy storage body body; Described insulator is located between the arbitrary neighborhood two monomer battery cores, between described integrated energy storage body body and the described loam cake and between described integrated energy storage body body and the described lower cover; The two ends of described each battery core group all connect described baffle by wire, are fixedly connected with positive output terminal and negative output terminal on the described baffle.

Further, also comprise at least one calandria, described calandria is located between the adjacent two monomer battery cores, and each described calandria all connects described baffle by wire.

Further, also comprise at least one temperature sensor, on each described monomer battery core a temperature sensor is set all, or described temperature sensor is located between the adjacent two monomer battery cores, or described temperature sensor is located at the center that adjacent four monomer battery cores form, and any two monomer battery cores are all adjacent in these four monomer battery cores; Each described temperature sensor all connects described baffle by wire.

Further; also comprise for the current signal of concentrating each battery core group and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group all are connected to described keyset by wire first, connect described baffle by described keyset by wire again.

Further; also comprise for concentrated each battery core group, the current signal of each calandria and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group and each calandria all connect described keyset by wire first, connect described baffle by described keyset by wire again.

Further; also comprise for concentrated each battery core group, each calandria, the current signal of each temperature sensor and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group, each calandria and each temperature sensor all connect described keyset by wire first, connect described baffle by described keyset by wire again.

Further, described calandria is a slice heating plate at least, and described heating plate is the heating plate with temperature check protection function.

Further, also be fixedly connected with the signals collecting terminal on the described baffle.

Further, the both sides of described loam cake and lower cover are equipped with the convergence part, and described securing member is installed on described convergence part.

Further, described insulator is PVC liner or acrylonitrile-butadiene rubber liner.

The utility model has the advantage of:

Adopt vertical equipping, the integrated energy storage body that each monomer battery core group is formed is fixed together by loam cake, lower cover and securing member, and multidimensional limits integrated storage bodies group in the movement of all directions, fixation, attractive in appearance, be convenient to turnover; By insulator is set, had not only increased the fail safe between the monomer battery core but also increased the shock resistance of whole integrated energy storage body; By being set, where necessary the integrated energy storage body is heated calandria, so that the integrated energy storage body also can work at low temperatures, and improving product performance greatly; By the set temperature transducer, the problem of Real-Time Monitoring monomer battery core makes product safer, by keyset combing inner lead is set, by baffle being set, the operating state of unified management integrated energy storage body.

[description of drawings]

In conjunction with the embodiments the utility model is further described with reference to the accompanying drawings.

Fig. 1 is the structural representation of the utility model embodiment one.

Fig. 2 is the schematic diagram of the utility model temperature sensor.

[embodiment]

See also shown in Figure 1ly, embodiment of the present utility model is described in detail.

Embodiment one: a kind of novel integrated energy storage body comprises integrated energy storage body body 1, loam cake 2, lower cover 3, calandria 4, temperature sensor 5, insulator 6, keyset 7 and baffle 8; Described integrated energy storage body body 1 comprises the battery core group of a plurality of mutual series connection, described battery core group is formed in parallel by at least two monomer battery cores 11, the polar end face of each described monomer battery core 11 is closely arranged up and with array way, and described polar end face is the end face that is provided with anodal and negative pole.Described loam cake 2 is provided with the groove 9 for fixing described integrated energy storage body body 1, and described lower cover 3 is provided with described groove 9, and described integrated energy storage body body 1 embeds described groove 9 and by securing member (not shown) described loam cake 2 and lower cover 3 tightened together; Described calandria 4 is located between the adjacent two monomer battery cores 11; See also Fig. 2, described temperature sensor 5 is located at the center 12(that adjacent four monomer battery cores 11 form and is seen also Fig. 2), in these four monomer battery cores 11 any two all adjacent; Described baffle 8 is located at the side of described integrated energy storage body body 1; Described insulator 6 is located between the arbitrary neighborhood two monomer battery cores 11, between described integrated energy storage body body 1 and the described loam cake 2 and between described integrated energy storage body body 1 and the described lower cover 3 (not shown); Described keyset 7 is used for concentrating described calandria 4; the current signal of temperature sensor 5 and battery core group and voltage signal; described keyset 7 is located at the top of described integrated energy storage body body 1; and be provided with described insulator 6 between the lower surface of described keyset 7 and the described integrated energy storage body body 1; be provided with described insulator 6 between the upper surface of described keyset 7 and the described loam cake 2; described each calandria 4; the two ends of each temperature sensor 5 and each battery core group all are connected to described keyset 7 by wire first, connect described baffle 8(annexation by described keyset 7 by wire more not shown).

Described calandria 4 is a slice heating plate at least, and described heating plate is the heating plate with temperature check protection function.

Be fixedly connected with positive output terminal 81, negative output terminal 82 and signals collecting terminal 83 on the described baffle 8.

The both sides of described loam cake 2 and lower cover 3 are equipped with convergence part 13, and described securing member is installed on described convergence part 13.Described securing member can be bolt and nut.

Described insulator 6 is PVC liner or acrylonitrile-butadiene rubber liner.Play the isolated insulation effect between 6 pairs of monomer battery cores 11 of described insulator, again because insulator 6 itself possesses certain damping capaicty, thereby play the anti-vibration function.

In the present embodiment, also comprise at least one temperature sensor 5, one described temperature sensor 5 all is set on each described monomer battery core 11, or described temperature sensor 5 is located between the adjacent two monomer battery cores 11, or described temperature sensor 5 is located at the center 12 that adjacent four monomer battery cores 11 form, and any two monomer battery cores 11 are all adjacent in these four monomer battery cores 11; Each described temperature sensor 5 all connects described baffle 8 by wire.When described temperature sensor 5 is located at the center 12 of adjacent four monomer battery cores, 11 formation, it is adjacent with a described temperature sensor 5 that described any monomer battery core 11 has and only has, and the monomer battery core 11 that namely shares temperature sensor 5 just no longer shares temperature sensors 5 with other monomer battery cores 11; It is adjacent with a described calandria 4 that described any one described monomer battery core 11 has and only has, the monomer battery core 11 that namely shares calandria 4 just no longer shares calandria 4 with other any monomer battery cores 11, so both can collect each monomer battery core 11 temperature, heat each monomer battery core 11, can reduce product cost again.

Embodiment two: embodiment two is than the difference of embodiment one: embodiment two does not use keyset 7, described each calandria 4, it is not shown that the two ends of each temperature sensor 5 and each battery core group all are connected directly to described baffle 8(by wire).

The utility model has the advantage of:

Adopt vertical equipping, the integrated energy storage body that each monomer battery core group is formed is fixed together by loam cake, lower cover and securing member, and multidimensional limits integrated storage bodies group in the movement of all directions, fixation, attractive in appearance, be convenient to turnover; By insulator is set, had not only increased the fail safe between the monomer battery core but also increased the shock resistance of whole integrated energy storage body; By being set, where necessary the integrated energy storage body is heated calandria, so that the integrated energy storage body also can work at low temperatures, and improving product performance greatly; By the set temperature transducer, the problem of Real-Time Monitoring monomer battery core makes product safer, by keyset combing inner lead is set, by baffle being set, the operating state of unified management integrated energy storage body.

The above, it only is the utility model preferred embodiment, therefore can not limit according to this scope that the utility model is implemented, the equivalence of namely doing according to the utility model claim and description changes and modifies, and all should still belong in the scope that the utility model contains.

Claims (10)

1. novel integrated energy storage body, comprise integrated energy storage body body, described integrated energy storage body body comprises the battery core group of a plurality of mutual series connection, described battery core group is formed in parallel by at least two monomer battery cores, the polar end face of each described monomer battery core is closely arranged up and with array way, and described polar end face is the end face that is provided with anodal and negative pole; It is characterized in that: also comprise loam cake, lower cover, insulator and baffle; Be covered with the groove for fixing described integrated energy storage body body on described, be covered with described groove under described, described integrated energy storage body body embeds described groove and by securing member described loam cake and lower cover is tightened together; Described baffle is located at the side of described integrated energy storage body body; Described insulator is located between the arbitrary neighborhood two monomer battery cores, between described integrated energy storage body body and the described loam cake and between described integrated energy storage body body and the described lower cover; The two ends of described each battery core group all connect described baffle by wire, are fixedly connected with positive output terminal and negative output terminal on the described baffle.

2. a kind of novel integrated energy storage body according to claim 1, it is characterized in that: also comprise at least one calandria, described calandria is located between the adjacent two monomer battery cores, and each described calandria all connects described baffle by wire.

3. a kind of novel integrated energy storage body according to claim 1, it is characterized in that: also comprise at least one temperature sensor, on each described monomer battery core a temperature sensor is set all, or described temperature sensor is located between the adjacent two monomer battery cores, or described temperature sensor is located at the center that adjacent four monomer battery cores form, and any two monomer battery cores are all adjacent in these four monomer battery cores; Each described temperature sensor all connects described baffle by wire.

4. a kind of novel integrated energy storage body according to claim 1; it is characterized in that: also comprise for the current signal of concentrating each battery core group and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group all are connected to described keyset by wire first, connect described baffle by described keyset by wire again.

5. a kind of novel integrated energy storage body according to claim 2; it is characterized in that: also comprise for concentrated each battery core group; the current signal of each calandria and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group and each calandria all connect described keyset by wire first, connect described baffle by described keyset by wire again.

6. a kind of novel integrated energy storage body according to claim 3; it is characterized in that: also comprise for concentrated each battery core group; each calandria; the current signal of each temperature sensor and the keyset of voltage signal; described keyset is located at the top of described integrated energy storage body body; and be provided with described insulator between the lower surface of described keyset and the described integrated energy storage body body; be provided with described insulator between the upper surface of described keyset and the described loam cake; the two ends of described each battery core group; each calandria and each temperature sensor all connect described keyset by wire first, connect described baffle by described keyset by wire again.

7. a kind of novel integrated energy storage body according to claim 2 is characterized in that: described calandria is a slice heating plate at least, and described heating plate is the heating plate with temperature check protection function.

8. a kind of novel integrated energy storage body according to claim 1 is characterized in that: also be fixedly connected with the signals collecting terminal on the described baffle.

9. a kind of novel integrated energy storage body according to claim 1, it is characterized in that: the both sides of described loam cake and lower cover are equipped with the convergence part, and described securing member is installed on described convergence part.

10. a kind of novel integrated energy storage body according to claim 1, it is characterized in that: described insulator is PVC liner or acrylonitrile-butadiene rubber liner.

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