CN217062255U - Energy storage electricity core controlling means - Google Patents

Abstract

The utility model relates to an energy storage electricity core controlling means, including energy storage electricity core and controlling means two parts, wherein controlling means includes control box, conducting strip, heat dissipation module, stationary blade, the antetheca position on the upper side at controlling means is installed to the control box to install the conducting strip through the bolt in the left and right sides, heat dissipation module installs the antetheca middle part position at controlling means, the stationary blade is total two, passes through the below of bolt fastening at heat dissipation module respectively, controlling means passes through the right side at energy storage electricity core of conducting strip and stationary blade installation. The utility model discloses an install integrated form multifunctional control board in the control box, through the real time monitoring to energy storage electric core, play all-round protection to energy storage electric core, and the utility model discloses install heat radiation module, through control by temperature change chip control, in time get rid of the produced heat of energy storage electric core at the charge-discharge in-process.

Description

Energy storage battery cell control device

Technical Field

The utility model relates to an energy storage electric core device especially relates to an energy storage electric core controlling means.

Background

Energy storage electric core is the important component among the energy memory, constitute by a plurality of energy storage electric cores, traditional energy storage electric core does not have controlling means or the public controlling means of a plurality of energy storage electric cores, lead to the unable effectual protection that obtains of energy storage electric core, in case one of them energy storage electric core appears current overload or voltage overload and does not obtain timely protection and will lead to other energy storage electric cores to damage, and traditional energy storage electric core controlling means does not have temperature control device, the produced heat in the time of can't be with energy storage electric core charge-discharge in time gets rid of, lead to the energy storage electric core to continue to work under high temperature, further lead to the rising of potential safety hazard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy storage electricity core controlling means to solve above-mentioned technical problem.

In order to realize the purpose, the utility model adopts the following technical proposal: an energy storage cell control device comprises an energy storage cell and a control device, wherein the control device is arranged at the right side position of the energy storage cell, the control device also comprises a control box, a control panel fixing block, a control panel slot, a control panel, a power connection end, a control box shell, a power connection end through slot, a conducting strip, a through hole, a fixing slot, a fixing piece, a heat dissipation module slot, a heat dissipation module, a fan, a copper plate, a cavity and heat conducting liquid, the control panel fixing block is positioned at the upper position of the two sides in the control box and is integrally formed with the control box, the control panel slot is arranged at the upper position of the middle part in the control device to divide the control device into two parts, one end of the control panel is inserted into the control panel slot, the other end of the control panel is contacted with the control panel fixing block, the two sides of the top of the front wall of the control panel are the power connection end, the control box shell is arranged at the top of the control box, the electric heating control box is fixed by using bolts, the positions on the upper left side and the lower right side of the shell of the control box are provided with electric connection end through grooves, the number of the conducting strips is two, the two conducting strips penetrate through the electric connection end through grooves respectively to be contacted with two electric connection ends and are connected with a control panel fixing block through bolts, through holes are drilled in the center positions of the front ends of the two conducting strips, the fixing groove is located on the lower left side and the lower right side of the front wall of the control device, the fixing piece is fixedly arranged through the bolts, the heat dissipation module groove is located between the control box and the fixing groove, the heat dissipation module is embedded in the heat dissipation module groove, the copper plate is embedded in the bottom of the heat dissipation module, the fans are three in total, the equal distance is installed in the heat dissipation module, the control device is in a two-layer design, the upper layer is used for installing the control box and the heat dissipation module, the lower layer is in a cavity design, and the cavity is filled with heat conduction liquid.

On the basis of the technical scheme, the control board and the electric connection end are designed into a whole.

On the basis of the technical scheme, the control panel integrates an overcharge protection chip, an undervoltage protection chip, a voltage overload protection chip, a current overload protection chip, a temperature control chip and a wireless communication chip.

On the basis of the technical scheme, the insulating paint is coated on the outer surface of the conducting strip except the contact position with the electric connection end and the inner wall of the through hole.

On the basis of the technical scheme, insulating paint is coated on the outer wall of the control device, the outer wall of the control box shell, the outer wall of the heat dissipation module and the outer wall of the fixing piece.

Compared with the prior art, the utility model has the advantages of it is following: the utility model discloses an install integrated form multifunctional control board in the control box, through the real time monitoring to energy storage electric core, play all-round protection to energy storage electric core, and the utility model discloses install heat radiation module, through control by temperature change chip control, in time get rid of the produced heat of energy storage electric core at the charge-discharge in-process.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a front view of the control device of the present invention.

Fig. 3 is an assembly schematic diagram of the control device of the present invention.

Fig. 4 is a sectional view of the control device of the present invention.

In the figure: energy storage electricity core 1, controlling means 2, control box 3, control panel fixed block 4, control panel slot 5, control panel 6, connect electric end 7, control box shell 8, connect electric end logical groove 9, conducting strip 10, through-hole 11, fixed slot 12, stationary blade 13, heat dissipation module groove 14, heat dissipation module 15, fan 16, copper 17, cavity 18, heat-conducting liquid 19.

Detailed Description

The present invention will be further described in detail with reference to the drawings and specific embodiments.

As shown in fig. 1 to 4, an energy storage cell control device comprises an energy storage cell 1 and a control device 2, wherein the control device 2 is installed at a right position of the energy storage cell 1, the control device 2 further comprises a control box 3, a control panel fixing block 4, a control panel slot 5, a control panel 6, an electric connection end 7, a control box shell 8, an electric connection end through groove 9, a conductive sheet 10, a through hole 11, a fixed groove 12, a fixed sheet 13, a heat dissipation module groove 14, a heat dissipation module 15, a fan 16, a copper plate 17, a cavity 18 and heat conducting liquid 19, the control panel fixing block 4 is located at an upper position of two sides in the control box 3 and is integrally formed with the control box 2, the control panel slot 5 is installed at an upper position of the middle part in the control device 2 to divide the control device 2 into two parts, one end of the control panel 6 is inserted into the control panel slot 5, and the other end of the control panel fixing block is in contact with the control panel fixing block 4, and both sides of the top of the front wall of the control panel 6 are electric terminals 7, the control box shell 8 is installed at the top of the control box 3 and fixed by bolts, electric terminal through grooves 9 are arranged at the upper positions of the left side and the right side of the control box shell 8, the total number of the conducting strips 10 is two, the two conducting strips 7 respectively penetrate the electric terminal through grooves 9 to be contacted with the two electric terminals 7 and are connected with the control panel fixing block 4 by bolts, through holes 11 are drilled at the center positions of the front ends of the two conducting strips 7, the fixing grooves 12 are positioned at the lower positions of the left side and the right side of the front wall of the control device 2 and are fixedly provided with fixing pieces 13 by bolts, the heat dissipation module grooves 14 are positioned between the control box 3 and the fixing grooves 13, the heat dissipation module 15 is embedded in the heat dissipation module grooves 14, the copper plate 17 is embedded at the bottom of the heat dissipation module 15, the fans 16 are three in total and are equidistantly installed in the heat dissipation module 15, the control device 2 is designed into a two-layer structure, the upper layer is used for installing the control box 3 and the heat dissipation module 15, the lower layer is designed into a cavity 18, and the cavity 18 is filled with heat-conducting liquid 19.

The control board 6 and the electric connection end 7 are designed integrally.

The control panel 6 integrates an overcharge protection chip, an undervoltage protection chip, a voltage overload protection chip, a current overload protection chip, a temperature control chip and a wireless communication chip.

The outer surface of the conducting strip 10 is coated with insulating paint except for the contact position with the electric connection terminal 7 and the inner wall of the through hole 11.

The outer wall of the control device 2, the outer wall of the control box shell 8, the outer wall of the heat dissipation module 15 and the outer wall of the fixing piece 13 are coated with insulating paint.

The utility model discloses an install integrated form multifunctional control board in the control box, through the real time monitoring to energy storage electric core, play all-round protection to energy storage electric core, and the utility model discloses install heat radiation module, through control by temperature change chip control, in time get rid of the produced heat of energy storage electric core at the charge-discharge in-process.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art, in light of the teachings of the present invention, variations, modifications, substitutions and changes may be made without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides an energy storage electricity core controlling means, includes energy storage electricity core (1) and controlling means (2) two parts, its characterized in that: the control device (2) is arranged at the right side position of the energy storage battery core (1), the control device (2) further comprises a control box (3), a control plate fixing block (4), a control plate slot (5), a control plate (6), a power connection end (7), a control box shell (8), a power connection end through slot (9), a conducting strip (10), a through hole (11), a fixing slot (12), a fixing piece (13), a heat dissipation module slot (14), a heat dissipation module (15), a fan (16), a copper plate (17), a cavity (18) and heat conducting liquid (19), the control plate fixing block (4) is positioned at the upper positions of two sides in the control box (3) and is integrally formed with the control box (3), the control plate slot (5) is arranged at the upper position of the middle part in the control device (2) to divide the control device (2) into two parts, one end of the control plate (6) is inserted into the control plate slot (5), the other end contacts with control panel fixed block (4), and the antetheca top both sides of control panel (6) are for connecting electric end (7), control box shell (8) are installed at control box (3) top, and use the bolt fastening, and control box shell (8) left and right sides position on the upper side is equipped with connects electric end logical groove (9), conducting strip (10) are total two, and two conducting strips (10) pass respectively and connect electric end logical groove (9) and contact with two and connect electric end (7), and link to each other with control panel fixed block (4) through the bolt, and the front end central point of two conducting strips (10) puts and has all bored through-hole (11), fixed slot (12) are located the antetheca left and right sides position of controlling means (2) on the lower side, and are fixed with stationary blade (13) through the bolt installation, heat dissipation module groove (14) are located between control box (3) and fixed slot (12), radiating module (15) inlays the dress in radiating module groove (14), copper (17) inlay the bottom of adorning radiating module (15), fan (16) are total three, and the equidistance is installed in radiating module (15), controlling means (2) are two-layer design, and the upper strata is used for installing control box (3) and radiating module (15), and the lower floor is cavity (18) design, and cavity (18) intussuseption is filled with heat-conducting liquid (19).

2. The energy storage cell control device according to claim 1, characterized in that: the control board (6) and the electric connection end (7) are designed into a whole.

3. The energy storage cell control device according to claim 1, characterized in that: the control panel (6) integrates an overcharge protection chip, an undervoltage protection chip, a voltage overload protection chip, a current overload protection chip, a temperature control chip and a wireless communication chip.

4. The energy storage cell control device according to claim 1, characterized in that: the outer surface of the conducting strip (10) is coated with insulating paint except for the contact position with the electric connection terminal (7) and the inner wall of the through hole (11).

5. The energy storage cell control device according to claim 1, characterized in that: and insulating paint is coated on the outer wall of the control device (2), the outer wall of the control box shell (8), the outer wall of the heat dissipation module (15) and the outer wall of the fixing piece (13).

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