Utility model content
The technical problem to be solved by the present invention is to aiming at the deficiencies in the prior art, provide a kind of distribution
Battery energy storage system Main Control Tank.
The utility model solves the technological means that technical problem uses and provides a kind of distributed battery energy-storage system Main Control Tank,
Including case lid and the cabinet with opening, the case lid is adapted to cabinet and is set in the opening of the cabinet;Detachable bracket,
The detachable bracket is set on the inner sidewall of the cabinet;Multiple battery management modules on the detachable bracket and
High pressure detection module, the battery management module and the high pressure detection module are electrically connected with external connection battery cluster.
Preferably, three battery management modules and three high pressure detections are respectively equipped on the detachable bracket
Module.
Further, the detachable bracket includes first support and second support, and the battery management module is fixed on
In the first support, the high pressure detection module is fixed in the second support.
It further, further include multiple anode connection terminal mouths and cathode connectivity port, the anode connection terminal mouth and cathode
Connectivity port is both secured on the cabinet and is connect respectively with the anode and cathode of external connection battery cluster by electric wire.
It further, further include main control loop, the anode and cathode of the main control loop are separately connected the anode connection
Port and cathode connectivity port, and the main control loop is set to the inside of the cabinet.
Further, the detachable bracket further includes third bracket.
It further, further include multiple connecting terminal components, the connecting terminal components are fixed on the third bracket, and
The connecting terminal components are electrically connected with the main control loop.
It is preferably, fixed on the third bracket that there are three connecting terminal components.
It further, further include take-up slot, the take-up slot is also set on the inner sidewall of the cabinet.
The utility model provides distributed battery energy-storage system Main Control Tank, has the advantages that
It is connect with extraneous battery cluster by the battery management module and high pressure detection module, it can be to extraneous battery cluster
The electric current inputted to the cabinet is monitored with voltage, because being provided with multiple cell tubes on the inner sidewall of the cabinet
Module and high pressure detection module are managed, is correspondingly connected with multiple external electricity by multiple battery management modules and high pressure detection module
Pond cluster, to realize that a cabinet can be monitored multiple battery clusters, to improve the cabinet monitoring battery cluster
Quantity, reduce enterprise to the production cost of the cabinet.
Specific embodiment
It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to limit this
Utility model.
Below in conjunction with the attached drawing in the embodiments of the present invention, to the technical solution in the embodiments of the present invention
It being clearly and completely described, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than
Whole embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work
Under the premise of every other embodiment obtained, fall within the protection scope of the utility model.
It is to be appreciated that the description for being such as related to " first ", " second " in the present invention is used for description purposes only, without
It can be interpreted as its relative importance of indication or suggestion or implicitly indicate the quantity of indicated technical characteristic.It defines as a result,
The feature of " first ", " second " can explicitly or implicitly include at least one of the features.In addition, between each embodiment
Technical solution can be combined with each other, but must based on can be realized by those of ordinary skill in the art, work as technical solution
Combination there is conflicting or cannot achieve when and will be understood that the combination of this technical solution is not present, it is also practical not new at this
Within the protection scope that type requires.
It is referring to FIG. 1 to FIG. 4, the entirety of the distributed battery energy-storage system Main Control Tank in an embodiment of the present invention
Structural perspective and overall structure side view.
The utility model provides distributed battery energy-storage system Main Control Tank, comprising:
Case lid (not shown go out) and the cabinet 1 with opening, case lid are adapted to cabinet 1 and in the openings of cabinet 1;
Detachable bracket 8, detachable bracket 8 are set on the inner sidewall of cabinet 1;
Multiple battery management modules 2 and high pressure detection module 3, battery management module 2 and height on detachable bracket 8
Pressure detection module 3 and external connection battery cluster (not shown out) are electrically connected.
In the above-described embodiments, the inner sidewall of cabinet 1 be equipped with detachable bracket 8, multiple battery management modules 2 (BCMU) with
And high pressure detection module 3 (HVMU) is fixedly mounted on detachable bracket 8, battery management module 2 is for detecting extraneous battery cluster
Electric current, and high pressure detection module 3 is specifically used for detecting the voltage of extraneous battery cluster;
Preferably, three battery management modules 2 and three high pressure detection modules 3 are respectively equipped on detachable bracket 8, often
One battery management module 2 and high pressure detection module 3 are correspondingly connected with an extraneous battery cluster, and reaching a cabinet 1 can be arranged
Three battery management modules 2 and three high pressure detection modules 3, thus realize that a cabinet 1 can connect three external connection battery clusters,
Save the fund cost that enterprise produces multiple cabinets 1;In addition, the more cell tubes of addition can be realized according to 1 volume of cabinet is increased
Module 2 and high pressure detection module 3 are managed, to connect more external connection battery clusters.
In an embodiment, because battery management module 2 and high pressure detection module 3 are arranged on detachable bracket 8,
Detachable bracket 8 is provided with the access slot (not shown out) of sliding rail (not shown go out) and engagement corresponding with sliding rail, by sliding rail with connect
The effect (similar furniture drawer) of pull is realized in slot connection, final to realize the quick of high pressure detection module 2 and battery management module 3
Dismounting.
In specific works, firstly, three battery management modules 2 and three high pressure detection modules 3 are mounted on detachably
On bracket 8, then, battery management module 2 is attached with external connection battery cluster respectively with high pressure detection module 3, battery management
Module 2 is respectively monitored battery cluster to the electric current that cabinet 1 inputs with high pressure detection module 3 with voltage, finally realizes one
A cabinet 1 monitors the effect of three battery clusters.
In one embodiment, detachable bracket 8 includes first support and second support, and battery management module 2 is fixed on
In first support, high pressure detection module 3 is fixed in second support.
Specifically, three battery management modules are fixed in first support, three high pressure detection module installations are fixed
On the secondary support bracket, single bracket need to only be dismantled, without all disassemblies convenient for distinguishing with this when it is time for repair.
It in one embodiment, further include multiple anode connection terminal mouths 5 and cathode connectivity port 6,5 He of anode connection terminal mouth
Cathode connectivity port 6 be both secured on cabinet 1 and by electric wire (not shown go out) respectively also with the anode of external connection battery cluster and negative
Pole connection.
Specifically, passing through multiple anode connection terminal mouths 5 and cathode connectivity port 6 anode with multiple external connection battery clusters respectively
It is connected with negative electrical wire, the electric current of multiple external connection battery clusters and voltage is enable to be transmitted in cabinet 1;Cathode connectivity port 6
Position is specifically set to the lower left of anode connection terminal mouth 5, by such design method to prevent Electric wire body from winding (such as attached drawing 4
It is shown).
In the specific implementation, firstly, multiple anode connection terminal mouths 5 and the installation of cathode connectivity port 6 are entrenched in cabinet 1
On side wall, the form of installation is specially that upper and lower position and left-right position are staggered one section of preset distance, then, passes through electric wire point
Anode connection terminal mouth 5 and cathode connectivity port 6 are not electrically connected with the anode and cathode of external connection battery cluster, it is final to realize cabinet 1
With the connection of external connection battery cluster.
Preferably, the quantity of anode connection terminal mouth 5 and cathode connectivity port 6 is specifically respectively three, to be correspondingly connected with three
The anode and cathode of a battery cluster.
It in one embodiment, further include main control loop 7, the anode and cathode of main control loop 7 are separately connected positive connection
Port 5 and cathode connectivity port 6, and main control loop 7 is set to the inside of cabinet 1.
In the above-described embodiments, main control loop 7 is set to the inside of cabinet 1, and connect with anode connection terminal mouth 5 and cathode
Port 6 connects, for receiving the electric current and voltage of external connection battery cluster, the electric current for exporting external connection battery cluster by main control loop 7
It is in parallel with voltage realization, entire 7 open circuit of main control loop will not be made to reach taking-up single battery cluster;Main control loop 7 include the 1st to
5th copper bar, fuse, contactor and sensor, the 1st copper bar are connect with anode connection terminal mouth 5, and the 1st copper bar passes through fuse and the 2nd
Copper bar connection prevents excessively high the 7, the 2nd copper bar of main control loop that damages because of voltage across contactor and the 3rd copper bar company by fuse
It connects, the buffering effect of electric current and voltage is reached by contactor, prevent the moment of electric current and voltage from increasing and damaging main control loop
7;4th copper bar is connect with cathode connectivity port 6, and the 4th copper bar passes through contactor and connect with the 5th copper bar, makes the connecting pin of cathode
The same buffering effect with electric current and voltage, the 5th copper bar is connect with sensor and entire main control loop 7 in parallel, for detecting
Electric current and voltage in circuit.
In the specific implementation, firstly, anode connection terminal mouth 5 and cathode connectivity port 6 are connect with main control loop 7 respectively,
Then, keep the electric current of extraneous battery cluster input in parallel with voltage progress by main control loop 7, take out single battery cluster not to reach
Main control loop 7 can be made to break down.
In another embodiment, electric current and voltage that external connection battery cluster inputs can be back to external electricity by main control loop 7
Pond cluster charges to external connection battery cluster;Detailed process is, firstly, cabinet 1 is connected by connecting terminal components 4 and external device
It connects, so that cabinet 1 be made to power external device, then, when external device and connecting terminal components 4 disconnect, cabinet 1 is then needed
Stop powering, cause to waste to prevent battery cluster continued power, may finally will be not transferred to by main control loop 7 outer
The electric current and voltage return for connecing device are transmitted to external connection battery cluster.
In one embodiment, detachable bracket 8 further includes third bracket;
Specifically, being provided with multiple connecting terminal components 4 on third bracket, and 7 electricity of connecting terminal components 4 and main control loop
Connection;
Preferably, connecting terminal components 4 there are three being set on third bracket.
Detailed process is that connecting terminal components 4 are powered for connecting with external devices, and to external devices, because of setting
There are three connecting terminal components 4, so that reaching a cabinet 1 can be to the offer of three external devices progress electric currents and voltage.
It in one embodiment, further include take-up slot, take-up slot (not shown go out) is also on the inner sidewall of cabinet 1.
In the above-described embodiments, take-up slot is specially hollow cuboid, and the electric wire inside cabinet 1 is passed through this take-up slot,
To play the role of arranging wire body, prevent the wire body inside cabinet 1 from complicated in disorder phenomenon occur.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.